Electrophotographic photosensitive member

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an electrophotographic photosensitive member having improved electrophotographic characteristics, and more specifically it relates to an electrophotographic photosensitive member having a photosensitive layer containing a compound with a specific structure.
2. Related Background Art
An organic electrophotographic photosensitive member containing an organic photoconductive compound as the main component has many advantages, and for example, it is free from drawbacks of an inorganic photosensitive member regarding film-forming properties, plasticity and manufacturing cost. Therefore, in recent years, much attention has been paid to the organic electrophotographic photosensitive member, and many techniques concerning the same have been suggested and some of them have been put into practice.
As such an organic photosensitive member, there has been suggested an electrophotographic photosensitive member mainly comprising a photoconductive polymer typified by poly(N-vinylcarbazole) or a charge transfer complex made from a Lewis acid such as 2,4,7-trinitro-9-fluorenone.
This kind of organic photoconductive polymer is better in lightweight properties and film-forming properties as compared with an inorganic photoconductive polymer, but the former is inferior to the latter in sensitivity, durability and stability to environmental change. For this reason, the organic photoconductive polymer is not always satisfactory.
Later, the electrophotographic photosensitive member of a separate-function type, which comprises different substances each bearing a charge-generating function or a charge-transporting function, has brought about improvements in sensitivity and durability which has made conventional organic photosensitive members disadvantageous. Such a separate-function type of photosensitive member is advantageous because the substances for the charge-generating substance and the charge-transporting substance can be selected respectively from a wide range of substances, which allows easier production of the electrophotographic photosensitive member having desired properties.
As the charge-generating substance, there have been known azo pigments, polycyclic quinone pigments, cyanine dyes, squaric acid dyes and pyrylium salt dyes. Above all, the azo pigments are preferable because of strong light resistance, high charge-generating ability and the relatively easy synthesis of materials and the like, and many kinds thereof have been suggested and put into practice.
Examples of the known charge-transporting substances include pyrazolines in Japanese Patent Publication No. 52-4188, hydrazones in Japanese Patent Publication No. 55-42380 and Japanese Patent Application Laid-open No. 55-52063, triphenylamines in Japanese Patent Publication No. 58-32372 and Japanese Patent Application Laid-open No. 61-132955, and stilbenes in Japanese Patent Application Laid-open Nos. 54-151955 and 58-198043.
The charge-transporting substance can be classified into a hole-transporting type and an electron-transporting type, but the above-mentioned charge-transporting substances and most of charge-transporting substances used in the organic electrophotographic photosensitive members which have been put into practice so far are of the hole-transporting type. In many cases of the photosensitive members each comprising the charge-transporting substance with hole-transporting ability, each photosensitive member has a conductive support, a charge-generating layer and a charge-transporting layer in this order, and in this case, the polarity of the charge which moves to the photosensitive member is negative. When the polarity of the charge is negative, ozone is generated at the time of charging and causes the photosensitive member to be chemically modified inconveniently. Thus, this kind of photosensitive member is inferior to inorganic photosensitive members such as a-Se and a-Si in durability.
As a measures against the deterioration of the photosensitive member with ozone generated at the time of charging, it has been suggested an electrophotographic photosensitive member having a conductive support, a charge-transporting layer and a charge-generating layer in this order, and an electrophotographic photosensitive member in which a protective layer is disposed on a photosensitive layer, for example, in Japanese Patent Application Laid-open Nos. 61-75355 and 54-58445.
However, in the electrophotographic photosensitive member having such a layer constitution, the relatively thin charge-generating layer is used as an upper layer, and when the member is repeatedly used, the surface of the photosensitive member is severely damaged by abrasion. In the photosensitive member provided with the protective layer for the purpose of solving this problem, this protective layer is an insulating layer, and therefore when the protective layer is repeatedly used, its potential is not stable, so that stable characteristics of the member cannot be maintained.
In view of the foregoing, it is desired to invent an organic electrophotographic photosensitive member which has a conductive support, a charge-generating layer and a charge-transporting layer in this order and which can be used in a condition that a positive pole is charged. However, in order to realize this expectation, a charge-transporting substance having electron-transporting ability is required. Suggested examples of the charge-transporting substance having the electron-transporting ability include 2,4,7-trinitro-9-fluorenone (TNF), dicyanomethylenefluorene carboxylate in Japanese Patent Application Laid-open No. 61-148159, anthraquinodimethane in Japanese Patent Application Laid-open Nos. 63-70257, 63-72664 and 63-104061, 1,4-naphthoquinone in Japanese Patent Application Laid-open No. 63-85749, and diphenyldicyanoethylene in Japanese Patent Application Laid-open Nos. 63-174993. Japanese Patent Application Laid-Open No. Hei 2-97953 suggests an electrophotographic photosensitive member having a charge-generating layer comprising a positive hole-transporting charge-generating material and a small amount of dicyanovinyl compound having a specific constitution.
However, to fill the present demand of a high-quality image, an electrophotographic photosensitive member has been investigated which can sufficiently meet requirements such as sensitivity, potential properties, cost and the compatibility of the charge-transporting substance with an organic solvent or a binder.
SUMMARY OF THE INVENTION
An object of the present invention is to provide an electrophotographic photosensitive member having a photosensitive layer containing a charge-transporting substance with a novel structure.
Another object of the present invention is to provide an electrophotographic photosensitive member which has a high sensitivity and which can maintain stable and excellent electrophotographic characteristics, even when repeatedly used.
That is, the first aspect of the present invention is directed to an electrophotographic photosensitive member comprising an electroconductive support and a photosensitive layer on the electroconductive support, and the photosensitive layer contains, as a charge-transporting substance, a compound represented by the formula (1) ##STR2## wherein A is an aromatic ring group derived from an aromatic compound having an reduction potential of -1.05 V or more; each of R.sup.1, R.sup.2, R.sup.3, R.sup.4 and R.sup.5 is a hydrogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, and R.sup.1, R.sup.2, R.sup.3, R.sup.4 and R.sup.5 may be different or identical, provided that R.sup.4 and R.sup.5 are not hydrogen atoms at the same time; n is an integer of 0 or 1; and m is an integer of 1 or 2.
The second aspect of the present invention is directed to an electrophotographic photosensitive member comprising an electroconductive support and a photosensitive layer on the electroconductive support, and the photosensitive layer contains a compound selected from the group consisting of a compound having a partial structure represented by the formula ##STR3## wherein each of R.sub.a and R.sub.b is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, ##STR4## each of R.sub.c and R.sub.d is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.e is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; and R.sub.d and R.sub.e may be bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1, and having at least one group selected from the group consisting of --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.c and ##STR5## a compound represented by the formula (4) ##STR6## wherein R.sub.4-1 is a thiophene ring group having a nitro group; each of R.sub.4-2 and R.sub.4-3 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, a nitro group, a cyano group, --(CH.dbd.CH).sub.f --NO.sub.2, --(CH.dbd.CH).sub.g --R.sub.4-4 or ##STR7## at least either of R.sub.4-2 and R.sub.4-3 is ##STR8## --(CH.dbd.CH).sub.g --R.sub.4-4 or --(CH.dbd.CH).sub.h --CH.dbd.C-R.sub.4-6 ; each of R.sub.4-4 and R.sub.4-5 is an aromatic ring group having a nitro group or a heterocyclic ring group having a nitro group; and R.sub.4-6 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; and each of f and g is an integer of 1 or 2; h is an integer of 0 or 1; each of R.sub.4-5 and R.sub.4-6 may be bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom; a compound represented by the formula (15) ##STR9## wherein each of R.sub.15-1, R.sub.15-2 and R.sub.15-3 is --(CH.dbd.CH).sub.s --NO.sub.2, --(CH.dbd.CH).sub.t --R.sub.15-4 or ##STR10## s is an integer of 0 or 1; each of t and u is an integer of 0 or 1; each of R.sub.15-4 and R.sub.15-5 is an aromatic ring group having a nitro group or a heterocyclic ring group having a nitro group; R.sub.15-6 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic hydrocarbon group, or a substituted or unsubstituted heterocyclic ring group; X is a substituted or unsubstituted divalent aromatic hydrocarbon ring group or a residue necessary to form a saturated hydrocarbon ring together with an adjacent carbon atom; and a compound represented by the formula (16) ##STR11## wherein each of R.sub.16-1 and R.sub.16-2 is a substituted or unsubstituted alkyl group or a substituted or unsubstituted aromatic ring group; each of R.sub.16-3 and R.sub.16-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group or a substituted or unsubstituted aromatic ring group; X is an oxygen atom, a sulfur atom, .dbd.C(CN).sub.2, ##STR12## each of R.sub.16-5 and R.sub.16-6 is a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aromatic ring group or a substituted or unsubstituted heterocyclic ring group; each of R.sub.16-7 and R.sub.16-8 is a hydrogen atom, a cyano group, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aromatic ring group or a substituted or unsubstituted heterocyclic ring group except that R.sub.16-5 and R.sub.16-6 as well as R.sub.16-7 and R.sub.16-8 are not hydrogen atoms at the same time.

BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 illustrates an outline of the constitution of an electrophotographic photosensitive apparatus employing an electrophotographic photosensitive member of the present invention.
FIG. 2 illustrates an example of the block diagram of a facsimile device employing the electrophotographic photosensitive member of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
An electrophotographic photosensitive member of the present invention has a photosensitive layer containing a compound represented by the formula (1), (4) or (15) and a compound having a partial structure represented by the formula ##STR13## wherein each of R.sub.a and R.sub.b is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.c or ##STR14## each of R.sub.c and R.sub.d is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.e is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; and R.sub.d and R.sub.e may be bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1.
Preferable examples of a compound from which A in the formula (1) is derived will be enumerated together with reduction potentials (Ered), but they are not restrictive.
______________________________________Compound Ered (V)______________________________________ ##STR15## -0.95b ##STR16## -0.73c ##STR17## -0.94d ##STR18## -0.97e ##STR19## -0.92f ##STR20## -0.93g ##STR21## -0.91h ##STR22## -0.98i ##STR23## -1.05j ##STR24## -0.47k ##STR25## -0.71l ##STR26## -0.96m ##STR27## -0.43n ##STR28## -0.88o ##STR29## -0.93______________________________________
The reduction potentials can be measured by the following procedure.
(Measurement of Reduction Potentials)
A saturated calomel electrode is selected as a reference electrode, and a 0.1N--(n-Bu).sub.4 N.sup.+ +ClO.sub.4 -acetonitrile solution is used. A potential at a working electrode is swept by a potential sweeper, and a peak position on the resultant current-potential curve is regarded as a value of reduction potential.
Specifically, a sample is dissolved in the electrolyte of the 0.1N--(n-Bu).sub.4 N.sup.+ +ClO.sub.4 -acetonitrile solution so as to be a concentration of about 5-10 mmol %. Afterward, voltage is applied to this sample solution and is then changed linearly from a higher potential (0 V) to a lower potential (-1.5 V), and at this time, current changes are measured to obtain a current-voltage curve. The value of a potential at the peak (the maximum potential) of current values on this current-voltage curve is regarded as the reduction potential in the present invention.
Preferable examples of compounds which can be used in the present invention include compounds having structures represented by the following formulae (2), (3), (5), (6), (7), (8), (9), (10), (11), (12), (13) and (14), but they are not restrictive. ##STR30## wherein each of R.sub.2-1, R.sub.2-2, R.sub.2-3 and R.sub.2-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.2-5 or ##STR31## and each of at least two of R.sub.2-1 to R.sub.2-4 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.2-5 or ##STR32## each of R.sub.2-5 and R.sub.2-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.2-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.2-6 and R.sub.2-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR33## wherein each of R.sub.3-1, R.sub.3-2, R.sub.3-3 and R.sub.3-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.3-5 or ##STR34## each of at least two of R.sub.3-1 to R.sub.3-4 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.3-5 or ##STR35## each of R.sub.3-5 and R.sub.3-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.3-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.3-6 and R.sub.3-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR36## wherein each of R.sub.5-1, R.sub.5-2, R.sub.5-3, R.sub.5-4, R.sub.5-5 and R.sub.5-6 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.5-7 or ##STR37## each of at least two of R.sub.5-1 to R.sub.5-6 are --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.5-7 or ##STR38## each of at least two of R.sub.5-1 to R.sub.5-6 are --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.5-7 or ##STR39## each of R.sub.5-7 and R.sub.5-8 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.5-9 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted-heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.5-8 and R.sub.5-9 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR40## wherein each of R.sub.6-1, R.sub.6-2, R.sub.6-3, R.sub.6-4, R.sub.6-5 and R.sub.6-6 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.6-7 or ##STR41## each of at least two of R.sub.6-1 to R.sub.6-6 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.6-7 or ##STR42## each of R.sub.6-7 and R.sub.6-8 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.6-9 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.6-8 and R.sub.6-9 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR43## wherein each of R.sub.7-1, R.sub.7-2, R.sub.7-3 and R.sub.7-4 is a hydrogen atom, a halogen atom, an alkyl group, an aralkyl group, or an aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.7-5 or ##STR44## each of at least two of R.sub.7-1 to R.sub.7-4 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.7-1 or ##STR45## each of R.sub.7-5 and R.sub.7-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.7-7 is an alkyl group, an aralkyl group, an aromatic ring group, or a heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.7-6 and R.sub.7-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR46## wherein each of R.sub.8-1, R.sub.8-2, R.sub.8-3 and R.sub.8-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.8-5 or ##STR47## each of at least two of R.sub.8-1 to R.sub.8-4 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.8-5 or ##STR48## each of R.sub.8-5 and R.sub.8-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.8-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.8-6 and R.sub.8-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR49## wherein each of R.sub.9-1, R.sub.9-2, R.sub.9-3 and R.sub.9-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.f --NO.sub.2, --(CH.dbd.CH).sub.g --R.sub.9-5 or ##STR50## each of at least two of R.sub.9-1 to R.sub.9-4 is --(CH.dbd.CH).sub.f --NO.sub.2, --(CH.dbd.CH).sub.g --R.sub.9-5 or ##STR51## each of R.sub.9-5 and R.sub.9-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.9-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of i, f and g is an integer of 1 or 2; and h is an integer of 0 or 1; R.sub.9-6 and R.sub.9-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR52## wherein each of R.sub.10-1, R.sub.10-2, R.sub.10-3 and R.sub.10-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.f --NO.sub.2, --(CH.dbd.CH).sub.g --R.sub.10-5 or ##STR53## each of at least two of R.sub.10-1 to R.sub.10-4 is --(CH.dbd.CH).sub.f --NO.sub.2, --(CH.dbd.CH).sub.g --R.sub.10-5 or ##STR54## each of R.sub.10-5 and R.sub.10-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.10-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of i, f and g is an integer of 1 or 2; and h is an integer of 0 or 1; R.sub.10-6 and R.sub.10-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR55## wherein each of R.sub.11-1 and R.sub.11-2 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.11-5 or ##STR56## at least either of R.sub.11-1 and R.sub.11-2 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.11-5 or ##STR57## each of R.sub.11-5 and R.sub.11-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.11-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; R.sub.11-6 and R.sub.11-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom; each of R.sub.11-3 and R.sub.11-4 is a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, a substituted or unsubstituted heterocyclic ring group, a nitro group or a cyano group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1. ##STR58## wherein each of R.sub.12-1,R.sub.12-2,R.sub.12-3,R.sub.12-4, R.sub.12-5 and R.sub.12-5 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.12-7 or ##STR59## each of at least two of R.sub.12-1 to R.sub.12-6 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.12-7 or ##STR60## each of R.sub.12-7 and R.sub.12-8 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.12-9 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.12-8 and R.sub.12-9 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR61## wherein each of R.sub.13-1, R.sub.13-2, R.sub.13-3 and R.sub.13-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.13-5 or ##STR62## each of at least two of R.sub.13-1 to R.sub.13-4 is --(CH.dbd.CH).sub.p --NO.sub.2, --(CH.dbd.CH).sub.q --R.sub.13-5 or ##STR63## each of R.sub.13-5 and R.sub.13-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.13-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of p and q is an integer of 0, 1 or 2; and r is an integer of 0 or 1; R.sub.13-6 and R.sub.13-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom. ##STR64## wherein each of R.sub.14-1, R.sub.14-2, R.sub.14-3 and R.sub.14-4 is a hydrogen atom, a halogen atom, a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, or a substituted or unsubstituted aromatic ring group, --(CH.dbd.CH).sub.f --NO.sub.2, --(CH.dbd.CH).sub.g --R.sub.14-5 or ##STR65## each of at least two of R.sub.14-1 to R.sub.14-4 is --(CH.dbd.CH).sub.f --NO.sub.2, --(CH.dbd.CH).sub.g --R.sub.14-5 or ##STR66## each of R.sub.14-5 and R.sub.14-6 is an aromatic ring group having a nitro group or a heterocyclic ring group having the nitro group; R.sub.14-7 is a substituted or unsubstituted alkyl group, a substituted or unsubstituted aralkyl group, a substituted or unsubstituted aromatic ring group, or a substituted or unsubstituted heterocyclic ring group; each of k, f and g is an integer of 1 or 2; and h is an integer of 0 or 1; R.sub.14-6 and R.sub.14-7 may be mutually bonded to form a ring directly or with the interposition of a saturated hydrocarbon, an unsaturated hydrocarbon, an oxygen atom or a sulfur atom.
In the compounds which can be used in the present invention, examples of the halogen atom include a fluorine atom, a chlorine atom and a bromine atom; examples of the alkyl group include methyl, ethyl, propyl and butyl groups; examples of the aralkyl group include benzyl, phenethyl and naphthylmethyl groups; examples of the aromatic ring group include phenyl and naphthyl groups; and examples of the heterocyclic ring group include thienyl, pyridyl and furyl groups.
Furthermore, examples of the substituents which the above-mentioned compounds may have include alkyl groups such as methyl and ethyl groups, halogen atoms such as fluorine and chlorine atoms, a cyano group and a nitro group.
The Compounds represented by Formula (1) are specifically exemplified below, which are intended to be illustrative and not limiting. ##STR67##
The Compounds represented by Formulas (2)-(16) are specifically exemplified below, but they are not limited thereto.
Referring to a way of showing specific compounds, a basic constitution common to those specific compounds is first indicated and then they are defined by specifying variable portions in the basic constitution.
______________________________________Basic constitution ##STR68## (Formula (2))______________________________________Compound 2-(1)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : NO.sub.2Compound 2-(2)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : CHCHNO.sub.2Compound 2-(3)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR69##Compound 2-(4)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR70##Compound 2-(5)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR71##Compound 2-(6)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR72##Compound 2-(7)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR73##Compound 2-(8)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR74##Compound 2-(9)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR75##Compound 2-(10)R.sub. 2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR76##Compound 2-(11)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR77##Compound 2-(12)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : CHCHNO.sub.2Compound 2-(13)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR78##Compound 2-(14)R.sub.2-1 : (CHCH) .sub.2NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR79##Compound 2-(15)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR80##Compound 2-(16)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR81##Compound 2-(17)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR82##Compound 2-(18)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR83##Compound 2-(19)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR84##Compound 2-(20)R.sub.2-1 : ##STR85##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR86##Compound 2-(21)R.sub.2-1 : ##STR87##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR88##Compound 2-(22)R.sub.2-1 : ##STR89##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR90##Compound 2-(23)R.sub.2-1 : ##STR91##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR92##Compound 2-(24)R.sub.2-1 : ##STR93##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR94##Compound 2-(25)R.sub.2-1 : ##STR95##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR96##Compound 2-(26)R.sub.2-1 : ##STR97##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR98##Compound 2-(27)R.sub.2-1 : ##STR99##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR100##Compound 2-(28)R.sub.2-1 : ##STR101##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR102##Compound 2-(29)R.sub.2-1 : ##STR103##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR104##Compound 2-(30)R.sub.2-1 : ##STR105##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR106##Compound 2-(31)R.sub.2-1 : ##STR107##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR108##Compound 2-(32)R.sub.2-1 : ##STR109##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR110##Compound 2-(33)R.sub.2-1 : ##STR111##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR112##Compound 2-(34)R.sub.2-1 : ##STR113##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR114##Compound 2-(35)R.sub.2-1 : ##STR115##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR116##Compound 2-(36)R.sub.2-1 : ##STR117##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR118##Compound 2-(37)R.sub.2-1 : ##STR119##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR120##Compound 2-(38)R.sub.2-1 : ##STR121##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR122##Compound 2-(39)R.sub.2-1 : ##STR123##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 ##STR124##Compound 2-(40)R.sub.2-1 : ##STR125##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 ##STR126##Compound 2-(41)R.sub.2-1 : NO.sub.2R.sub.2-2 : ClR.sub.2-3 : HR.sub.2-4 : ##STR127##Compound 2-(42)R.sub.2-1 : NO.sub.2R.sub.2-2 : ClR.sub.2-3 : HR.sub.2-4 : ##STR128##Compound 2-(43)R.sub.2-1 : ##STR129##R.sub.2-2 : ClR.sub.2-3 : HR.sub.2-4 : ##STR130##Compound 2-(44)R.sub.2-1 : ##STR131##R.sub.2-2 : BrR.sub.2-3 : HR.sub.2-4 : ##STR132##Compound 2-(45)R.sub.2-1 : ##STR133##R.sub.2-2 : BrR.sub.2-3 : HR.sub.2-4 : ##STR134##Compound 2-(46)R.sub.2-1 : NO.sub.2R.sub.2-2 : ClR.sub.2-3 : ClR.sub.2-4 : ##STR135##Compound 2-(47)R.sub.2-1 : NO.sub.2R.sub.2-2 : ClR.sub.2-3 : ClR.sub.2-4 : ##STR136##Compound 2-(48)R.sub.2-1 : ##STR137##R.sub.2-2 : C.sub.2 H.sub.5R.sub.2-3 : HR.sub.2-4 : ##STR138##Compound 2-(49)R.sub.2-1 : ##STR139##R.sub.2-2 : CH.sub.3R.sub.2-3 : CH.sub.3R.sub.2-4 : ##STR140##Compound 2-(50)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : C.sub.4 H.sub.9 (t)R.sub.2-3 : HR.sub.2-4 : CHCHNO.sub.2Compound 2-(51)R.sub.2-1 : ##STR141##R.sub.2-2 : NO.sub.2R.sub.2-3 : HR.sub.2-4 ##STR142##Compound 2-(52)R.sub.2-1 : ##STR143##R.sub.2-2 : ##STR144##R.sub.2-3 : HR.sub.2-4 : ##STR145##Compound 2-(53)R.sub.2-1 : ##STR146##R.sub.2-2 : CH.sub.2R.sub.2-3 : CH.sub.2R.sub.2-4 : ##STR147##Compound 2-(54)R.sub.2-1 : HR.sub.2-2 : ##STR148##R.sub.2-3 : HR.sub.2-4 : ##STR149##Compound 2-(55)R.sub.2-1 : NO.sub.2R.sub.2-2 : ##STR150##R.sub.2-3 : HR.sub.2-4 : ##STR151##Compound 2-(56)R.sub.2-1 : ##STR152##R.sub.2-2 : ##STR153##R.sub.2-3 : CH.sub.3R.sub.2-4 : ##STR154##Compound 2-(57)R.sub.2-1 : ##STR155##R.sub.2-2 : ##STR156##R.sub.2-3 : ClR.sub.2-4 : ##STR157##Compound 2-(58)R.sub.2-1 : ##STR158##R.sub.2-2 : ##STR159##R.sub.2-3 : HR.sub.2-4 : HCompound 2-(59)R.sub.2-1 : NO.sub.2R.sub.2-2 : ##STR160##R.sub.2-3 : HR.sub.2-4 : HCompound 2-(60)R.sub.2-1 : NO.sub.2R.sub.2-2 : ##STR161##R.sub.2-3 : HR.sub.2-4 : HCompound 2-(61)R.sub.2-1 : ##STR162##R.sub.2-2 : ##STR163##R.sub.2-3 : HR.sub.2-4 : HCompound 2-(62)R.sub.2-1 : HR.sub.2-2 : NO.sub.2R.sub.2-3 : CHCHNO.sub.2R.sub.2-4 : HCompound 2-(63)R.sub.2-1 : HR.sub.2-2 : ##STR164##R.sub.2-3 : ##STR165##R.sub.2-4 : HCompound 2-(64)R.sub.2-1 : HR.sub.2-2 : NO.sub.2R.sub.2-3 : ##STR166##R.sub.2-4 : HCompound 2-(65)R.sub.2-1 : HR.sub.2-2 : ##STR167##R.sub.2-3 : ##STR168##R.sub.2-4 : HCompound 2-(66)R.sub.2-1 : NO.sub.2R.sub.2-2 : CH CHNO.sub.2R.sub.2-3 : HR.sub.2-4 : ##STR169##Compound 2-(67)R.sub.2-1 : ##STR170##R.sub.2-2 : NO.sub.2R.sub.2-3 : HR.sub.2-4 : ##STR171##Compound 2-(68)R.sub.2-1 : ##STR172##R.sub.2-2 : CHCHNO.sub.2R.sub.2-3 : HR.sub.2-4 : ##STR173##Compound 2-(69)R.sub.2-1 : ##STR174##R.sub.2-2 : ##STR175##R.sub.2-3 : HR.sub.2-4 : NO.sub.2Compound 2-(70)R.sub.2-1 : NO.sub.2R.sub.2-2 : ##STR176##R.sub.2-3 : ##STR177##R.sub.2-4 : NO.sub.2Compound 2-(71)R.sub.2-1 : ##STR178##R.sub.2-2 : ##STR179##R.sub.2-3 : ##STR180##R.sub.2-4 : ##STR181##Compound 2-(72)R.sub.2-1 : HR.sub.2-2 : NO.sub.2R.sub.2-3 : HR.sub.2-4 : ##STR182##Compound 2-(73)R.sub.2-1 : HR.sub.2-2 : ##STR183##R.sub.2-3 : HR.sub.2-4 : ##STR184##Compound 2-(74)R.sub.2-1 : HR.sub.2-2 : ##STR185##R.sub.2-3 : HR.sub.2-4 : NO.sub.2Compound 2-(75)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR186##Compound 2-(76)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR187##Compound 2-(77)R.sub.2-1 : ##STR188##R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR189##Compound 2-(78)R.sub.2-1 : CHCHNO.sub.2R.sub.2-2 : HR.sub.2-3 : HR.sub.2-4 : ##STR190##Compound 2-(79)R.sub.2-1 : CH.sub.3R.sub.2-2 : ##STR191##R.sub.2-3 : ##STR192##R.sub.2-4 : CH.sub.3Compound 2-(80)R.sub.2-1 : C.sub.2 H.sub.5R.sub.2-2 : ##STR193##R.sub.2-3 : ##STR194##R.sub.2-4 : C.sub.2 H.sub.5Compound 2-(81)R.sub.2-1 : ##STR195##R.sub.2-2 : ##STR196##R.sub.2-3 : ##STR197##R.sub.2-4 : ##STR198##Compound 2-(82)R.sub.2-1 : ##STR199##R.sub.2-2 : ##STR200##R.sub.2-3 : ##STR201##R.sub.2-4 : ##STR202##Compound 2-(83)R.sub.2-1 : ##STR203##R.sub.2-2 : ##STR204##R.sub.2-3 : ##STR205##R.sub.2-4 : ##STR206##Compound 2-(84)R.sub.2-1 : NO.sub.2R.sub.2-2 : HR.sub.2-3 : ##STR207##R.sub.2-4 : H______________________________________
______________________________________Basic constitution ##STR208## (Formula (3))______________________________________Compound 3-(1)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : NO.sub.2Compound 3-(2)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : CHCHNO.sub.2Compound 3-(3)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR209##Compound 3-(4)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR210##Compound 3-(5)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR211##Compound 3-(6)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR212##Compound 3-(7)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR213##Compound 3-(8)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR214##Compound 3-(9)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR215##Compound 3-(10)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR216##Compound 3-(11)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR217##Compound 3-(12)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : CHCHNO.sub.2Compound 3-(13)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR218##Compound 3-(14)R.sub.3-1 : (CHCH) .sub.2NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR219##Compound 3-(15)R.sub.3-1 : CHCH NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR220##Compound 3-(16)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR221##Compound 3-(17)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR222##Compound 3-(18)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR223##Compound 3-(19)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR224##Compound 3-(20)R.sub.3-1 : ##STR225##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR226##Compound 3-(21)R.sub.3-1 : ##STR227##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR228##Compound 3-(22)R.sub.3-1 : ##STR229##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR230##Compound 3-(23)R.sub.3-1 : ##STR231##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR232##Compound 3-(24)R.sub.3-1 : ##STR233##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR234##Compound 3-(25)R.sub.3-1 : ##STR235##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR236##Compound 3-(26)R.sub.3-1 : ##STR237##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR238##Compound 3-(27)R.sub.3-1 : ##STR239##R.sub. 3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR240##Compound 3-(28)R.sub.3-1 : ##STR241##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR242##Compound 3-(29)R.sub.3-1 : ##STR243##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR244##Compound 3-(30)R.sub.3-1 : ##STR245##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR246##Compound 3-(31)R.sub.3-1 : ##STR247##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR248##Compound 3-(32)R.sub.3-1 : ##STR249##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR250##Compound 3-(33)R.sub.3-1 : ##STR251##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR252##Compound 3-(34)R.sub.3-1 : ##STR253##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR254##Compound 3-(35)R.sub.3-1 : ##STR255##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR256##Compound 3-(36)R.sub.3-1 : ##STR257##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR258##Compound 3-(37)R.sub.3-1 : ##STR259##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR260##Compound 3-(38)R.sub.3-1 : ##STR261##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR262##Compound 3-(39)R.sub.3-1 : ##STR263##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR264##Compound 3-(40)R.sub.3-1 : ##STR265##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR266##Compound 3-(41)R.sub.3-1 : NO.sub.2R.sub.3-2 : ClR.sub.3-3 : HR.sub.3-4 : ##STR267##Compound 3-(42)R.sub.3-1 : NO.sub.2R.sub.3-2 : ClR.sub.3-3 : HR.sub.3-4 : ##STR268##Compound 3-(43)R.sub.3-1 : ##STR269##R.sub.3-2 : ClR.sub.3-3 : HR.sub.3-4 : ##STR270##Compound 3-(44)R.sub.3-1 : ##STR271##R.sub.3-2 : BrR.sub.3-3 : HR.sub.3-4 : ##STR272##Compound 3-(45)R.sub.3-1 : ##STR273##R.sub.3-2 : BrR.sub.3-3 : HR.sub.3-4 : ##STR274##Compound 3-(46)R.sub.3-1 : NO.sub.2R.sub.3-2 : ClR.sub.3-3 : ClR.sub.3-4 : ##STR275##Compound 3-(47)R.sub.3-1 : NO.sub.2R.sub.3-2 : ClR.sub.3-3 : ClR.sub.3-4 : ##STR276##Compound 3-(48)R.sub.3-1 : ##STR277##R.sub.3-2 : C.sub.2 H.sub.5R.sub.3-3 : HR.sub.3-4 : ##STR278##Compound 3-(49)R.sub.3-1 : ##STR279##R.sub.3-2 : CH.sub.3R.sub.3-3 : CH.sub.3R.sub.3-4 : ##STR280##Compound 3-(50)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : C.sub.4 H.sub.9 (t)R.sub.3-3 : HR.sub.3-4 : CHCHNO.sub.2Compound 3-(51)R.sub.3-1 : ##STR281##R.sub.3-2 : NO.sub.2R.sub.3-3 : HR.sub.3-4 : ##STR282##Compound 3-(52)R.sub.3-1 : ##STR283##R.sub.3-2 : CH.sub.2R.sub.3-3 : HR.sub.3-4 : ##STR284##Compound 3-(53)R.sub.3-1 : ##STR285##R.sub.3-2 : CH.sub.2R.sub.3-3 : CH.sub.2R.sub.3-4 : ##STR286##Compound 3-(54)R.sub.3-1 : HR.sub.3-2 : ##STR287##R.sub.3-3 : HR.sub.3-4 : ##STR288##Compound 3-(55)R.sub.3-1 : NO.sub.2R.sub.3-2 : ##STR289##R.sub.3-3 : HR.sub.3-4 : ##STR290##Compound 3-(56)R.sub.3-1 : ##STR291##R.sub.3-2 : ##STR292##R.sub.3-3 : CH.sub.3R.sub.3-4 : ##STR293##Compound 3-(57)R.sub.3-1 : ##STR294##R.sub.3-2 : ##STR295##R.sub.3-3 : ClR.sub.3-4 : ##STR296##Compound 3-(58)R.sub.3-1 : ##STR297##R.sub.3-2 : ##STR298##R.sub.3-3 : HR.sub.3-4 : HCompound 3-(59)R.sub.3-1 : NO.sub.2R.sub.3-2 : ##STR299##R.sub.3-3 : HR.sub.3-4 : HCompound 3-(60)R.sub.3-1 : NO.sub.2R.sub.3-2 : ##STR300##R.sub.3-3 : HR.sub.3-4 : HCompound 3-(61)R.sub.3-1 : ##STR301##R.sub.3-2 : ##STR302##R.sub.3-3 : HR.sub.3-4 : HCompound 3-(62)R.sub.3-1 : HR.sub.3-2 : NO.sub.2R.sub.3-3 : CHCHNO.sub.2R.sub.3-4 : HCompound 3-(63)R.sub.3-1 : HR.sub.3-2 : ##STR303##R.sub.3-3 : ##STR304##R.sub.3-4 : HCompound 3-(64)R.sub.3-1 : HR.sub.3-2 : NO.sub.2R.sub.3-3 : ##STR305##R.sub.3-4 : HCompound 3-(65)R.sub.3-1 : HR.sub.3-2 : ##STR306##R.sub.3-3 : ##STR307##R.sub.3-4 : HCompound 3-(66)R.sub.3-1 : NO.sub.2R.sub.3-2 : CHCHNO.sub.2R.sub.3-3 : HR.sub.3-4 : ##STR308##Compound 3-(67)R.sub.3-1 : ##STR309##R.sub.3-2 : NO.sub.2R.sub.3-3 : HR.sub.3-4 : ##STR310##Compound 3-(68)R.sub.3-1 : ##STR311##R.sub.3-2 : CHCHNO.sub.2R.sub.3-3 : HR.sub.3-4 : ##STR312##Compound 3-(69)R.sub.3-1 : ##STR313##R.sub.3-2 : ##STR314##R.sub.3-3 : HR.sub.3-4 : NO.sub.2Compound 3-(70)R.sub.3-1 : NO.sub.2R.sub.3-2 : ##STR315##R.sub. 3-3 : ##STR316##R.sub.3-4 : NO.sub.2Compound 3-(71)R.sub.3-1 : ##STR317##R.sub.3-2 : ##STR318##R.sub.3-3 : ##STR319##R.sub.3-4 : ##STR320##Compound 3-(72)R.sub.3-1 : HR.sub.3-2 : NO.sub.2R.sub.3-3 : HR.sub.3-4 : ##STR321##Compound 3-(73)R.sub.3-1 : HR.sub.3-2 : ##STR322##R.sub.3-3 : HR.sub.3-4 : ##STR323##Compound 3-(74)R.sub.3-1 : HR.sub.3-2 : ##STR324##R.sub.3-3 : HR.sub.3-4 : NO.sub.2Compound 3-(75)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR325##Compound 3-(76)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR326##Compound 3-(77)R.sub.3-1 : ##STR327##R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR328##Compound 3-(78)R.sub.3-1 : CHCHNO.sub.2R.sub.3-2 : HR.sub.3-3 : HR.sub.3-4 : ##STR329##Compound 3-(79)R.sub.3-1 : CH.sub.3R.sub.3-2 : ##STR330##R.sub.3-3 : ##STR331##R.sub.3-4 : CH.sub.3Compound 3-(80)R.sub.3-1 : C.sub.2 H.sub.5R.sub.3-2 : ##STR332##R.sub.3-3 : ##STR333##R.sub.3-4 : C.sub.2 H.sub.5Compound 3-(81)R.sub.3-1 : ##STR334##R.sub.3-2 : ##STR335##R.sub.3-3 : ##STR336##R.sub.3-4 : ##STR337##Compound 3-(82)R.sub.3-1 : ##STR338##R.sub.3-2 : ##STR339##R.sub.3-3 : ##STR340##R.sub.3-4 : ##STR341##Compound 3-(83)R.sub.3-1 : ##STR342##R.sub.3-2 : ##STR343##R.sub.3-3 : ##STR344##R.sub.3-4 : ##STR345##Compound 3-(84)R.sub.3-1 : NO.sub.2R.sub.3-2 : HR.sub.3-3 : ##STR346##R.sub.3-4 : H______________________________________
______________________________________Basic constitution(Formula (4)) ##STR347##______________________________________Compound 4-(1)R.sub.4-1 : ##STR348##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : HCompound 4-(2)R.sub.4-1 : ##STR349##R.sub.4-2 : (CHCH) .sub.2 NO.sub.2R.sub.4-3 : HCompound 4-(3)R.sub.4-1 : ##STR350##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : ClCompound 4-(4)R.sub.4-1 : ##STR351##R.sub.4-2 : ##STR352##R.sub.4-3 : HCompound 4-(5)R.sub.4-1 : ##STR353##R.sub.4-2 : ##STR354##R.sub.4-3 : HCompound 4-(6)R.sub.4-1 : ##STR355##R.sub.4-2 : ##STR356##R.sub.4-3 : HCompound 4-(7)R.sub.4-1 : ##STR357##R.sub.4-2 : ##STR358##R.sub.4-3: HCompound 4-(8)R.sub.4-1 : ##STR359##R.sub.4-2 : ##STR360##R.sub.4-3 : HCompound 4-(9)R.sub.4-1 : ##STR361##R.sub.4-2 : ##STR362##R.sub.4-3 : HCompound 4-(10)R.sub.4-1 : ##STR363##R.sub.4-2 : ##STR364##R.sub.4-3 : HCompound 4-(11)R.sub.4-1 : ##STR365##R.sub.4-2 : ##STR366##R.sub.4-3 : HCompound 4-(12)R.sub.4-1 : ##STR367##R.sub.4-2 : ##STR368##R.sub.4-3 : HCompound 4-(13)R.sub.4-1 : ##STR369##R.sub.4-2 : ##STR370##R.sub.4-3 : HCompound 4-(14)R.sub.4-1 : ##STR371##R.sub.4-2 : ##STR372##R.sub.4-3 : HCompound 4-(15)R.sub.4-1 : ##STR373##R.sub.4-2 : ##STR374##R.sub.4-3 : HCompound 4-(16)R.sub.4-1 : ##STR375##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : CH.sub.3Compound 4-(17)R.sub.4-1 : ##STR376##R.sub.4-2 : (CHCH).sub.2NO.sub.2R.sub.4-3 : C.sub.4 H.sub.9 (t)Compound 4-(18)R.sub.4-1 : ##STR377##R.sub.4-2 : ##STR378##R.sub.4-3 : ##STR379##Compound 4-(19)R.sub.4-1 : ##STR380##R.sub.4-2 : ##STR381##R.sub.4-3 : BrCompound 4-(20)R.sub.4-1 : ##STR382##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : CNCompound 4-(21)R.sub.4-1 : ##STR383##R.sub.4-2 : ##STR384##R.sub.4-3 : ##STR385##Compound 4-(22)R.sub.4-1 : ##STR386##R.sub.4-2 : ##STR387##R.sub.4-3 : CHCHNO.sub.2Compound 4-(23)R.sub.4-1 : ##STR388##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : HCompound 4-(24)R.sub.4-1 : ##STR389##R.sub.4-2 : ##STR390##R.sub.4-3 : HCompound 4-(25)R.sub.4-1 : ##STR391##R.sub.4-2 : ##STR392##R.sub.4-3 : HCompound 4-(26)R.sub.4-1 : ##STR393##R.sub.4-2 : (CHCH) .sub.2 NO.sub.2R.sub.4-3 : NO.sub.2Compound 4-(27)R.sub.4-1 : ##STR394##R.sub.4-2 : ##STR395##R.sub.4-3 : CHCHNO.sub.2Compound 4-(28)R.sub.4-1 : ##STR396##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : CHCHNO.sub.2Compound 2-(29)R.sub.4-1 : ##STR397##R.sub.4-2 : ##STR398##R.sub.4-3 : NO.sub.2 Compound 4-(30)R.sub.4-1 : ##STR399##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : HCompound 4-(31)R.sub.4-1 : ##STR400##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : ##STR401##Compound 4-(32)R.sub.4-1 : ##STR402##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : ##STR403##Compound 4-(33)R.sub.4-1 : ##STR404##R.sub.4-2 : ##STR405##R.sub.4-3 : CNCompound 4-(34)R.sub.4-1 : ##STR406##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : ##STR407##Compound 4-(35)R.sub.4-1 : ##STR408##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : ##STR409##Compound 4-(36)R.sub.4-1 : ##STR410##R.sub.4-2 : CHCHNO.sub.2R.sub.4-3 : ##STR411##Compound 4-(37)R.sub.4-1 : ##STR412##R.sub.4-2 : ##STR413##R.sub.4-3 : ##STR414##Compound 4-(38)R.sub.4-1 : ##STR415##R.sub.4-2 : ##STR416##R.sub.4-3 : ##STR417##Compound 4-(39)R.sub.4-1 : ##STR418##R.sub.4-2 : ##STR419##R.sub.4-3 : H______________________________________
______________________________________Basis constitution(Formula (5)) ##STR420##______________________________________Compound 5-(1)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(2)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(3)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR421##Compound 5-(4)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR422##Compound 5-(5)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : (CHCH) .sub.2NO.sub.2Compound 5-(6)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR423##Compound 5-(7)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR424##Compound 5-(8)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR425##Compound 5-(9)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR426##Compound 5-(10)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR427##Compound 5-(11)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5- 5 : HR.sub.5-6 : ##STR428##Compound 5-(12)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR429##Compound 5-(13)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR430##Compound 5-(14)R.sub.5-1 : NO.sub.2R.sub.5-2 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(15)R.sub.5-1 : NO.sub.2R.sub.5-2 : HR.sub.5-3 : ClR.sub.5-4 , R.sub.5-5 : HR.sub.5-6 : ##STR431##Compound 5-(16)R.sub.5-1 : NO.sub.2R.sub.5-2 : HR.sub.5-3 : BrR.sub.5-4 : HR.sub.5-5 : CHCHNO.sub.2R.sub.5-6 : HCompound 5-(17)R.sub.5-1 : NO.sub.2R.sub.5-2 -R.sub.5-4 : HR.sub.5-5 : ##STR432##R.sub.5-6 : HCompound 5-(18)R.sub.5-1 : NO.sub.2R.sub.5-2, R.sub.5-3 : HR.sub.5-4 : (CHCH) .sub.2NO.sub.2R.sub.5-5 : HR.sub.5-6 : C.sub.4 H.sub.9 (t)Compound 5-(19)R.sub.5-1 : NO.sub.2R.sub.5-2 : HR.sub.5-3 : ##STR433##R.sub.5-4 : HR.sub.5-5 : CH.sub.3R.sub.5-6 : HCompound 5-(20)R.sub.5-1 : NO.sub.2R.sub.5-2 : HR.sub.5-3 : ##STR434##R.sub.5-4 -R.sub.5-6 : HCompound 5-(21)R.sub.5-1 : NO.sub.2R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : C.sub.2 H.sub.5Compound 5-(22)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(23)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR435##Compound 5-(24)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR436##Compound 5-(25)R.sub.5-1 : BrR.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : (CHCH) .sub.2NO.sub.2Compound 5-(26)R.sub.5-1 : ClR.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR437##Compound 5-(27)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR438##Compound 5-(28)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4 : HR.sub.5-5 : CHCHNO.sub.2R.sub.5-6 : HCompound 5-(29)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3, R.sub.5-4 : HR.sub.5-5 : ##STR439##R.sub.5-6 : HCompound 5-(30)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3, R.sub.5-4 : HR.sub.5-5 : ##STR440##R.sub.5-6 : HCompound 5-(31)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : NO.sub.2R.sub.5-5 : HR.sub.5-6 : ##STR441##Compound 5-(32)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : NO.sub.2R.sub.5-5 : HR.sub.5-6 : (CHCH) .sub.2NO.sub.2Compound 5-(33)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(34)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub.5-3 : HR.sub.5-4 : ClR.sub.5-5 : HR.sub.5-6 : ##STR442##Compound 5-(35)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR443##Compound 5-(36)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR444##Compound 5-(37)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR445##Compound 5-(38)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR446##Compound 5-(39)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub.5-3 -R.sub.5-4 : HR.sub.5-5 : CHCHNO.sub.2R.sub.5-6 : HCompound 5-(40)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub.5-3 : HR.sub.5-4 : ##STR447##R.sub.5-5 -R.sub.5-6 : HCompound 5-(41)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub. 5-3 : HR.sub.5-4 : ##STR448##R.sub.5-5 -R.sub.5-6 : HCompound 5-(42)R.sub.5-1 : HR.sub.5-2 : (CHCH).sub.2NO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR449##Compound 5-(43)R.sub.5-1 : HR.sub.5-2 : (CHCH) .sub.2NO.sub.2R.sub.5-3 : HR.sub.5-4 : ClR.sub.5-5 : ##STR450##R.sub.5-6 : HCompound 5-(44)R.sub.5-1 : CHCHNO.sub.2R.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub.5-4 -R.sub.5-6 : HCompound 5-(45)R.sub.5-1 : CHCHNO.sub.2R.sub.5-2 -R.sub.5-5 : HR.sub.5-6 : ##STR451##Compound 5-(46)R.sub.5-1 : (CHCH) .sub.2NO.sub.2R.sub.5-2 -R.sub.5-4 : HR.sub.5-5 : ##STR452##R.sub.5-6 : HCompound 5-(47)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : (CHCH) .sub.2NO.sub.2Compound 5-(48)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub. 5-4, R.sub.5-5 : HR.sub.5-6 : ##STR453##Compound 5-(49)R.sub.5-1 : ClR.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR454##Compound 5-(50)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR455##Compound 5-(51)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub. 5-4 : HR.sub.5-5 : (CHCH) .sub.2NO.sub.2R.sub.5-6 : HCompound 5-(52)R.sub.5-1 : CH.sub.3R.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub.5-4 : HR.sub.5-5 : ##STR456##R.sub.5-6 : HCompound 5-(53)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : (CHCH).sub.2NO.sub.2R.sub.5-4 : HR.sub.5-5 : ##STR457##R.sub.5-6 : HCompound 5-(54)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : CHCHNO.sub.2R.sub.5-5 : HR.sub. 5-6 : ##STR458##Compound 5-(55)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : CHCHNO.sub.2R.sub.5-5 : (CHCH) .sub.2NO.sub.2R.sub.5-6 : HCompound 5-(56)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : (CHCH) .sub.2NO.sub.2R.sub.5-5 : (CHCH) .sub.2NO.sub.2R.sub.5-6 : HCompound 5-(57)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : CHCHNO.sub.2R.sub.5-6 : CHCHNO.sub.2Compound 5-(58)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : CHCHNO.sub.2R.sub.5-6 : ##STR459##Compound 5-(59)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : CHCHNO.sub.2Compound 5-(60)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : ##STR460##Compound 5-(61)R.sub.5-1 : HR.sub.5-2 : ##STR461##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(62)R.sub.5-1 : HR.sub.5-2 : CHCHNO.sub.2R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(63)R.sub.5-1 : HR.sub.5-2 : ( CHCH) .sub.2NO.sub.2R.sub.5-3, R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : HCompound 5-(64)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : CHCHNO.sub.2R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(65)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : (CHCH) .sub.2NO.sub.2R.sub.5-5 : NO.sub.2R.sub.5-6 : HCompound 5-(66)R.sub.5-1 : HR.sub.5-2 : ##STR462##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR463##Compound 5-(67)R.sub.5-1 : HR.sub.5-2 : ##STR464##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR465##Compound 5-(68)R.sub.5-1 : HR.sub.5-2 : ##STR466##R.sub.5-3 -R.sub.5-4 : HR.sub.5-5 : ##STR467##R.sub.5-6 : HCompound 5-(69)R.sub.5-1 : HR.sub.5-2 : ##STR468##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : (CHCH) .sub.2NO.sub.2Compound 5-(70)R.sub.5-1 : HR.sub.5-2 : ##STR469##R.sub.5- 3 -R.sub.5-5 : HR.sub.5-6 : ##STR470##Compound 5-(71)R.sub.5-1 : HR.sub.5-2 : ##STR471##R.sub.5-3 : HR.sub.5-4 : NO.sub.2R.sub.5-5, R.sub.5-6 : HCompound 5-(72)R.sub.5-1 : HR.sub.5-2 : ##STR472##R.sub.5-3 : HR.sub.5-4 : CHCHNO.sub.2R.sub.5-5, R.sub.5-6 : HCompound 5-(73)R.sub.5-1 : HR.sub.5-2 : ##STR473##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR474##Compound 5-(74)R.sub.5-1 : ##STR475##R.sub.5-2 -R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(75)R.sub.5-1 : ##STR476##R.sub.5-2 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(76)R.sub.5-1 : ##STR477##R.sub.5-2 -R.sub.5-4 : HR.sub.5-5 : ##STR478##R.sub.5-6 : HCompound 5-(77)R.sub.5-1 : ##STR479##R.sub.5-2 : HR.sub.5-3 : ##STR480##R.sub.5-4 -R.sub.5-6 : HCompound 5-(78)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR481##R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(79)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR482##R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(80)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR483##R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR484##Compound 5-(81)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR485##R.sub.5-4 : HR.sub.5-5 : (CHCH) .sub.2NO.sub.2R.sub.5-6 : HCompound 5-(82)R.sub.5-1 : ClR.sub.5-2 : HR.sub.5-3 : ##STR486##R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR487##Compound 5-(83)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR488##R.sub.5-4 : HR.sub.5-5 : ##STR489##R.sub.5-6 : HCompound 5-(84)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : ##STR490##R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(85)R.sub.5-1 : HR.sub.5-2 : CH.sub.3R.sub.5-3 : HR.sub.5-4 : ##STR491##R.sub.5-5 : CHCHNO.sub.2R.sub.5-6 : HCompound 5-(86)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : ##STR492##R.sub.5-6 : NO.sub.2Compound 5-(87)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : ##STR493##R.sub.5-6 : CHCHNO.sub.2Compound 5-(88)R.sub.5-1 : HR.sub.5-2 : ##STR494##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(89)R.sub.5-1 : HR.sub.5-2 : ##STR495##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(90)R.sub.5-1 : HR.sub.5-2 : ##STR496##R.sub.5-3 -R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : HCompound 5-(91)R.sub.5-1 : HR.sub.5-2 : ##STR497##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR498##Compound 5-(92)R.sub.5-1 : HR.sub.5-2 : ##STR499##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(93)R.sub.5-1 : HR.sub.5-2 : ##STR500##R.sub.5-3 : HR.sub.5-4 : NO.sub.2R.sub.5-5, R.sub.5-6 : HCompound 5-(94)R.sub.5-1 : HR.sub.5-2 : ##STR501##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR502##Compound 5-(95)R.sub.5-1 : ##STR503##R.sub.5-2 -R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(96)R.sub.5-1 : ##STR504##R.sub.5-2 -R.sub.5-5 : HR.sub.5-6 : ##STR505##Compound 5-(97)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR506##R.sub.5-4 -R.sub.5-5 : HR.sub.5-6 : ##STR507##Compound 5-(98)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR508##R.sub.5-4 -R.sub.5-5 : HR.sub.5-6 : ##STR509##Compound 5-(99)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR510##R.sub.5-4 : HR.sub.5-5 : ##STR511##R.sub.5-6 : HCompound 5-(100)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : ##STR512##R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(101)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : ##STR513##R.sub.5-6 : NO.sub.2Compound 5-(102)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : ##STR514##Compound 5-(103)R.sub.5-1 : HR.sub.5-2 : ##STR515##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(104)R.sub.5-1 : HR.sub.5-2 : ##STR516##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR517##Compound 5-(105)R.sub.5-1 : HR.sub.5-2 : ##STR518##R.sub.5-3, R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : HCompound 5-(106)R.sub.5-1 : HR.sub.5-2 : ##STR519##R.sub.5-3, R.sub.5-4 : HR.sub.5-5 : ##STR520##R.sub.5-6 : HCompound 5-(107)R.sub.5-1 : ##STR521##R.sub.5-2 : HR.sub.5-3 : ##STR522##R.sub.5-4 -R.sub.5-6 : HCompound 5-(108)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : ##STR523##R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(109)R.sub.5-1 , R.sub.5-4 : HR.sub.5-5 : ##STR524##R.sub.5-6 : NO.sub.2Compound 5-(110)R.sub.5-1 -R.sub.5-4 : HR.sub.5-5 NO.sub.2R.sub.5-6 : ##STR525##Compound 5-(111)R.sub.5-1 : CH.sub.3R.sub.5-2 : NO.sub.2R.sub.5-3 : HR.sub.5-4 : C.sub.2 H.sub.5R.sub.5-5 : HR.sub.5-6 : NO.sub.2Compound 5-(112)R.sub.5-1 : C.sub.4 H.sub.9 (t)R.sub.5-2 : HR.sub.5-3 : ##STR526##R.sub.5-4 : HR.sub.5-5 : CH.sub.3R.sub.5-6 : (CHCH).sub.2NO.sub.2Compound 5-(113)R.sub.5-1 : C.sub.2 H.sub.5R.sub.5-2 : HR.sub.5-3 : CHCHNO.sub.2R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : CH.sub.3Compound 5-(114)R.sub.5-1 : CH.sub.3R.sub.5-2 : ##STR527##R.sub.5-3 : HR.sub.5-4 : C.sub.2 H.sub.5R.sub.5-5 : CH.sub.3R.sub.5-6 : NO.sub.2Compound 5-(115)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 : HR.sub.5-4 : ##STR528##R.sub.5-5 : HR.sub.5-6 : CHCHNO.sub.2Compound 5-(116)R.sub.5-1 : NO.sub.2R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : CH.sub.3Compound 5-(117)R.sub.5-1 : HR.sub.5-2 : NO.sub.2R.sub.5-3 : HR.sub.5-4 : NO.sub.2R.sub.5-5 : HR.sub.5-6 : ##STR529##Compound 5-(118)R.sub.5-1 : NO.sub.2R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4 : HR.sub.5-5 : NO.sub.2R.sub.5-6 : CHCHNO.sub.2Compound 5-(119)R.sub.5-1 : HR.sub.5-2 : ##STR530##R.sub.5-3 -R.sub.5-5 : HR.sub.5-6 : ##STR531##Compound 5-(120)R.sub.5-1, R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4, R.sub.5-5 : HR.sub.5-6 : ##STR532##Compound 5-(121)R.sub.5-1 -R.sub.5-3 : HR.sub.5-4 : ##STR533##R.sub.5-5 : HR.sub.5-6 : ##STR534##Compound 5-(122)R.sub.5-1 : ##STR535##R.sub.5-2 : HR.sub.5-3 : NO.sub.2R.sub.5-4 : HR.sub.5-5 : ##STR536##R.sub.5-6 : HCompound 5-(123)R.sub.5-1 : HR.sub.5-2 : ##STR537##R.sub.5-3 : HR.sub.5-4 : ##STR538##R.sub.5-5 : ##STR539##R.sub.5-6 : NO.sub.2Compound 5-(124)R.sub.5-1 : HR.sub.5-2 : ##STR540##R.sub.5-3 : HR.sub.5-4 : NO.sub.2R.sub.5-5 : NO.sub.2R.sub.5-6 : C.sub.2 H.sub.5Compound 5-(125)R.sub.5-1 : HR.sub.5-2 : ##STR541##R.sub.5-3 : HR.sub.5-4 : ##STR542##R.sub.5-5, R.sub.5-6 : H______________________________________
______________________________________Basic constitution(Formula (6)) ##STR543##______________________________________Compound 6-(1)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(2)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : CHCHNO.sub.2Compound 6-(3)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR544##Compound 6-(4)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub. 6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR545##Compound 6-(5)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 (CHCH).sub.2 NO.sub.2Compound 6-(6)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR546##Compound 6-(7)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR547##Compound 6-(8)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6- 3 -R.sub.6-5 : HR.sub.6-6 : ##STR548##Compound 6-(9)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR549##Compound 6-(10)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR550##Compound 6-(11)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR551##Compound 6-(12)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR552##Compound 6-(13)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR553##Compound 6-(14)R.sub.6-1 : NO.sub.2R.sub.6-2 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(15)R.sub.6-1 : NO.sub.2R.sub.6-2 : HR.sub.6-3 : ClR.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR554##Compound 6-(16)R.sub.6-1 : NO.sub.2R.sub.6-2 : HR.sub.6-3 : BrR.sub.6-4 : HR.sub.6-5 : CHCHNO.sub.2R.sub.6-6 : HCompound 6-(17)R.sub.6-1 : NO.sub.2R.sub.6-2 -R.sub.6-4 : HR.sub.6-5 : ##STR555##R.sub.6-6 : HCompound 6-(18)R.sub.6-1 : NO.sub.2R.sub.6-2, R.sub.6-3 : HR.sub.6-4 : (CHCH).sub.2 NO.sub.2R.sub.6-5 : HR.sub.6-6 : C.sub.4 H.sub.9 (t)Compound 6-(19)R.sub.6-1 : NO.sub.2R.sub.6-2 : HR.sub.6-3 : ##STR556##R.sub.6-4 : HR.sub.6-5 : CH.sub.3R.sub.6-6 : HCompound 6-(20)R.sub.6-1 : NO.sub.2R.sub.6-2 : HR.sub.6-3 : ##STR557##R.sub.6-4 -R.sub.6-6 : HCompound 6-(21)R.sub.6-1 : NO.sub.2R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : C.sub.2 H.sub.5Compound 6-(22)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : CHCHNO.sub.2Compound 6-(23)R.sub.6-1, R.sub.6-2 : HR.sub.6- 3 : NO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR558##Compound 6-(24)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 NO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR559##Compound 6-(25)R.sub.6-1 : BrR.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : (CH CH) .sub.2NO.sub.2Compound 6-(26)R.sub.6-1 : ClR.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR560##Compound 6-(27)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR561##Compound 6-(28)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4 : HR.sub.6-5 : CHCHNO.sub.2R.sub.6-6 : HCompound 6-(29)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3, R.sub.6-4 : HR.sub.6-5 : ##STR562##R.sub.6-6 : HCompound 6-(30)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6- 3, R.sub.6-4 : HR.sub.6-5 : ##STR563##R.sub.6-6 : HCompound 6-(31)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : NO.sub.2R.sub.6-5 : HR.sub.6-6 : ##STR564##Compound 6-(32)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : NO.sub.2R.sub.6-5 : HR.sub.6-6 : (CHCH) .sub.2NO.sub.2Compound 6-(33)R.sub.6-1 : HR.sub.6-2 : CHCHNO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : CHCHNO.sub.2Compound 6-(34)R.sub.6-1 : HR.sub.6-2 : CHCHNO.sub.2R.sub.6-3 : HR.sub.6-4 : ClR.sub.6-5 : HR.sub.6-6 : ##STR565##Compound 6-(35)R.sub.6-1 : HR.sub.6-2 : CHCHNO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR566##Compound 6-(36)R.sub.6-1 : HR.sub.6-2 : CHCHNO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR567##Compound 6-(37)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR568##Compound 6-(38)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR569##Compound 6-(39)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3, R.sub.6-4 : HR.sub.6-5 : CHCHNO.sub.2R.sub.6-6 : HCompound 6-(40)R.sub.6-1 : HR.sub.6-2 : CHCHNO.sub.2R.sub.6-3 : HR.sub.6-4 : ##STR570##R.sub.6-5 -R.sub.6-6 : HCompound 6-(41)R.sub.6-1 : HR.sub.6-2 : CHCHNO.sub.2R.sub.6-3 : HR.sub.6-4 : ##STR571##R.sub.6-5 -R.sub.6-6 : HCompound 6-(42)R.sub.6-1 : HR.sub.6-2 : (CHCH).sub.2 NO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 ##STR572##Compound 6-(43)R.sub.6-1 : HR.sub.6-2 : (CHCH) .sub.2NO.sub.2R.sub.6-3 : HR.sub.6-4 : ClR.sub.6-5 : ##STR573##R.sub.6-6 : HCompound 6-(44)R.sub.6-1 : CHCHNO.sub.2R.sub.6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4 -R.sub.6-6 : HCompound 6-(45)R.sub.6-1 : CHCHNO.sub.2R.sub.6-2 -R.sub.6- 5 : HR.sub.6-6 : ##STR574##Compound 6-(46)R.sub.6-1 : (CHCH).sub.2 NO.sub.2R.sub.6-2 -R.sub.6-4 : HR.sub.6-5 : ##STR575##R.sub.6-6 : HCompound 6-(47)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : (CHCH).sub.2 NO.sub.2Compound 6-(48)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR576##Compound 6-(49)R.sub.6- 1 : ClR.sub.6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR577##Compound 6-(50)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR578##Compound 6-(51)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4 : HR.sub.6-5 : (CHCH).sub.2 NO.sub.2R.sub.6-6 : HCompound 6-(52)R.sub.6-1 : CH.sub.3R.sub. 6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4 : HR.sub.6-5 : ##STR579##R.sub.6-6 : HCompound 6-(53)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : (CHCH).sub.2 NO.sub.2R.sub.6-4 : HR.sub.6-5 : ##STR580##R.sub.6-6 : HCompound 6-(54)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : CHCHNO.sub.2R.sub.6-5 : HR.sub.6-6 : ##STR581##Compound 6-(55)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : CHCHNO.sub.2R.sub.6-5 : (CHCH) .sub.2NO.sub.2R.sub.6-6 : HCompound 6-(56)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : (CHCH) .sub.2NO.sub.2R.sub.6-5 : (CHCH) .sub.2NO.sub.2R.sub.6-6 : HCompound 6-(57)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : CHCHNO.sub.2R.sub.6-6 : CHCHNO.sub.2Compound 6-(58)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : CHCHNO.sub.2R.sub.6-6 : ##STR582##Compound 6-(59)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : CHCHNO.sub.2Compound 6-(60)R.sub.6- 1 -R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : ##STR583##Compound 6-(61)R.sub.6-1 : HR.sub.6-2 : ##STR584##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(62)R.sub.6-1 : HR.sub.6-2 : CHCHNO.sub.2R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(63)R.sub.6-1 : HR.sub.6-2 : (CHCH) .sub.2NO.sub.2R.sub.6-3, R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : HCompound 6-(64)R.sub.6-1 - R.sub.6-3 : HR.sub.6-4 : CHCHNO.sub.2R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(65)R.sub.6-1 -R.sub.6-3 HR.sub.6-4 : (CHCH) .sub.2NO.sub.2R.sub.6-5 : NO.sub.2R.sub.6-6 : HCompound 6-(66)R.sub.6-1 : HR.sub.6-2 : ##STR585##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR586##Compound 6-(67)R.sub.6-1 : HR.sub.6-2 : ##STR587##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR588##Compound 6-(68) R.sub.6-1 : HR.sub.6-2 : ##STR589##R.sub.6-3, R.sub.6-4 : HR.sub.6-5 : ##STR590##R.sub.6-6 : HCompound 6-(69)R.sub.6-1 : HR.sub.6-2 : ##STR591##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : (CHCH).sub.2 NO.sub.2Compound 6-(70)R.sub.6-1 : HR.sub.6-2 : ##STR592##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR593##Compound 6-(71)R.sub.6-1 : HR.sub.6-2 : ##STR594##R.sub.6-3 : HR.sub.6-4 : NO.sub.2R.sub.6-5, R.sub.6-6 : HCompound 6-(72)R.sub.6-1 : HR.sub.6-2 : ##STR595##R.sub.6-3 : HR.sub.6-4 : CHCHNO.sub.2R.sub.6-5, R.sub.6-6 : HCompound 6-(73)R.sub.6-1 : HR.sub.6-2 : ##STR596##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR597##Compound 6-(74)R.sub.6-1 : ##STR598##R.sub.6-2 -R.sub.6-5 : HR.sub.6- 6 : CHCHNO.sub.2Compound 6-(75)R.sub.6-1 : ##STR599##R.sub.6-2 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(76)R.sub.6-1 : ##STR600##R.sub.6-2 -R.sub.6-4 : HR.sub.6-5 : ##STR601##R.sub.6-6 : HCompound 6-(77)R.sub.6-1 : ##STR602##R.sub.6-2 : HR.sub.6-3 : ##STR603##R.sub.6-4 -R.sub.6-6 : HCompound 6-(78)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR604##R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : CHCHNO.sub.2Compound 6-(79)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR605##R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(80)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR606##R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR607##Compound 6-(81)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR608##R.sub.6-4 : HR.sub.6-5 : (CHCH) .sub.2NO.sub.2R.sub.6-6 : HCompound 6-(82)R.sub.6-1 : ClR.sub.6-2 : HR.sub.6-3 : ##STR609##R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR610##Compound 6-(83)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR611##R.sub.6-4 : HR.sub.6-5 : ##STR612##R.sub.6-6 : HCompound 6-(84)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : ##STR613##R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(85)R.sub.6-1 : HR.sub.6-2 : CH.sub.3R.sub.6-3 : HR.sub.6-4 : ##STR614##R.sub.6-5 : CHCHNO.sub.2R.sub.6-6 : HCompound 6-(86)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : ##STR615##R.sub.6-6 : NO.sub.2Compound 6-(87)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : ##STR616##R.sub.6-6 : CHCHNO.sub.2Compound 6-(88)R.sub.6-1 : HR.sub.6-2 : ##STR617##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : CHCHNO.sub.2Compound 6-(89)R.sub.6-1 : HR.sub.6-2 : ##STR618##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(90)R.sub.6-1 : HR.sub.6-2 : ##STR619##R.sub.6-3, R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : HCompound 6-(91)R.sub.6-1 : HR.sub.6-2 : ##STR620##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR621##Compound 6-(92)R.sub.6-1 : HR.sub.6-2 : ##STR622##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(93)R.sub.6-1 : HR.sub.6-2 : ##STR623##R.sub.6-3 : HR.sub.6-4 : NO.sub.2R.sub.6-5, R.sub.6-6 : HCompound 6-(94)R.sub.6-1 : HR.sub.6-2 : ##STR624##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR625##Compound 6-(95)R.sub.6-1 : ##STR626##R.sub.6-2 -R.sub.6-5 : HR.sub.6-6 : CH CHNO.sub.2Compound 6-(96)R.sub.6-1 : ##STR627##R.sub.6-2 -R.sub.6-5 : HR.sub.6-6 : ##STR628##Compound 6-(97)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR629##R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR630##Compound 6-(98)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR631##R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : ##STR632##Compound 6-(99)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR633##R.sub.6-4 : HR.sub.6-5 : ##STR634##R.sub.6-6 : HCompound 6-(100)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : ##STR635##R.sub.6-5 : HR.sub.6-6 : CHCHNO.sub.2Compound 6-(101)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : ##STR636##R.sub.6-6 : NO.sub.2Compound 6-(102)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : ##STR637##Compound 6-(103)R.sub.6-1 : HR.sub.6-2 : ##STR638##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(104)R.sub.6-1 : HR.sub.6-2 : ##STR639##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR640##Compound 6-(105)R.sub.6-1 : HR.sub.6-2 : ##STR641##R.sub.6-3, R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : HCompound 6-(106)R.sub.6-1 : HR.sub.6-2 : ##STR642##R.sub.6-3, R.sub.6-4 : HR.sub.6-5 : ##STR643##R.sub.6-6 : HCompound 6-(107)R.sub.6-1 : ##STR644##R.sub.6-2 : HR.sub.6-3 : ##STR645##R.sub.6-4 -R.sub.6-6 : HCompound 6-(108)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : ##STR646##R.sub.6-4, R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(109)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : ##STR647##R.sub.6-6 : NO.sub.2Compound 6-(110)R.sub.6-1 -R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : ##STR648##Compound 6-(111)R.sub.6-1 : CH.sub.3R.sub.6-2 : NO.sub.2R.sub.6-3 HR.sub.6-4 : C.sub.2 H.sub.5R.sub.6-5 : HR.sub.6-6 : NO.sub.2Compound 6-(112)R.sub.6-1 : C.sub.4 H.sub.9 (t)R.sub.6-2 : HR.sub.6-3 : ##STR649##R.sub.6-4 : HR.sub.6-5 : CH.sub.3R.sub.6-6 : (CHCH).sub.2 NO.sub.2Compound 6-(113)R.sub.6-1 : C.sub.2 H.sub. 5R.sub.6-2 : HR.sub.6-3 : CHCHNO.sub.2R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : CH.sub.3Compound 6-(114)R.sub.6-1 : CH.sub.3R.sub.6-2 : ##STR650##R.sub.6-3 : HR.sub.6-4 : C.sub.2 H.sub.5R.sub.6-5 : CH.sub.3R.sub.6-6 : NO.sub.2Compound 6-(115)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 : HR.sub.6-4 : ##STR651##R.sub.6-5 : HR.sub.6-6 : CHCHNO.sub.2Compound 6-(116)R.sub.6-1 : NO.sub.2R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : CH.sub.3Compound 6-(117)R.sub.6-1 : HR.sub.6-2 : NO.sub.2R.sub.6-3 : HR.sub.6-4 : NO.sub.2R.sub.6-5 : HR.sub.6-6 : ##STR652##Compound 6-(118)R.sub.6-1 : NO.sub.2R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4 : HR.sub.6-5 : NO.sub.2R.sub.6-6 : CHCHNO.sub.2Compound 6-(119)R.sub.6-1 : HR.sub.6-2 : ##STR653##R.sub.6-3 -R.sub.6-5 : HR.sub.6-6 : ##STR654##Compound 6-(120)R.sub.6-1, R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub. 6-4, R.sub.6-5 : HR.sub.6-6 : ##STR655##Compound 6-(121)R.sub.6-1 -R.sub.6-3 : HR.sub.6-4 : ##STR656##R.sub.6-5 : HR.sub.6-6 : ##STR657##Compound 6-(122)R.sub.6-1 : ##STR658##R.sub.6-2 : HR.sub.6-3 : NO.sub.2R.sub.6-4 : HR.sub.6-5 : ##STR659##R.sub.6-6 : HCompound 6-(123)R.sub.6-1 : HR.sub.6-2 : ##STR660##R.sub.6-3 : HR.sub.6-4 : ##STR661##R.sub.6-5 : ##STR662##R.sub.6-6 : NO.sub.2Compound 6-(124)R.sub.6-1 : HR.sub.6-2 : ##STR663##R.sub.6-3 : HR.sub.6-4 : NO.sub.2R.sub.6-5 : NO.sub.2R.sub.6-6 : C.sub.2 H.sub.5Compound 6-(125)R.sub.6-1 : HR.sub.6-2 : ##STR664##R.sub.6-3 : HR.sub.6-4 : ##STR665##R.sub.6-5, R.sub.6-6 : H______________________________________
______________________________________Basic constitution(Formula (7)) ##STR666##______________________________________Compound 7-(1)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : NO.sub.2Compound 7-(2)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : CHCHNO.sub.2Compound 7-(3)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR667##Compound 7-(4)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR668##Compound 7-(5)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR669##Compound 7-(6)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR670##Compound 7-(7)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR671##Compound 7-(8)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR672##Compound 7-(9)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR673##Compound 7-(10)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR674##Compound 7-(11)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR675##Compound 7-(12)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : CHCHNO.sub.2Compound 7-(13)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR676##Compound 7-(14)R.sub.7-1 : (CHCH).sub.2 NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR677##Compound 7-(15)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR678##Compound 7-(16)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR679##Compound 7-(17)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR680##Compound 7-(18)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR681##Compound 7-(19)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR682##Compound 7-(20)R.sub.7-1 : ##STR683##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR684##Compound 7-(21)R.sub.7-1 : ##STR685##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR686##Compound 7-(22)R.sub.7-1 : ##STR687##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR688##Compound 7-(23)R.sub.7-1 : ##STR689##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR690##Compound 7-(24)R.sub.7-1 : ##STR691##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR692##Compound 7-(25)R.sub.7-1 : ##STR693##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR694##Compound 7-(26)R.sub.7-1 : ##STR695##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR696##Compound 7-(27)R.sub.7-1 : ##STR697##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR698##Compound 7-(28)R.sub.7-1 : ##STR699##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR700##Compound 7-(29)R.sub.7-1 : ##STR701##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR702##Compound 7-(30)R.sub.7-1 : ##STR703##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR704##Compound 7-(31)R.sub.7-1 : ##STR705##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR706##Compound 7-(32)R.sub.7-1 : ##STR707##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR708##Compound 7-(33)R.sub.7-1 : ##STR709##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR710##Compound 7-(34)R.sub.7-1 : ##STR711##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR712##Compound 7-(35)R.sub.7-1 : ##STR713##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR714##Compound 7-(36)R.sub.7-1 : ##STR715##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR716##Compound 7-(37)R.sub.7-1 : ##STR717##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR718##Compound 7-(38)R.sub.7-1 : ##STR719##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR720##Compound 7-(39)R.sub.7-1 : ##STR721##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR722##Compound 7-(40)R.sub.7-1 : ##STR723##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR724##Compound 7-(41)R.sub.7-1 : NO.sub.2R.sub.7-2 : ClR.sub.7-3 : HR.sub.7-4 : ##STR725##Compound 7-(42)R.sub.7-1 : NO.sub.2R.sub.7-2 : ClR.sub.7-3 : HR.sub.7-4 : ##STR726##Compound 7-(43)R.sub.7-1 : ##STR727##R.sub.7-2 : ClR.sub.7-3 : HR.sub.7-4 : ##STR728##Compound 7-(44)R.sub.7-1 : ##STR729##R.sub.7-2 : BrR.sub.7-3 : HR.sub.7-4 : ##STR730##Compound 7-(45)R.sub.7-1 : ##STR731##R.sub.7-2 : BrR.sub.7-3 : HR.sub.7-4 : ##STR732##Compound 7-(46)R.sub.7-1 : NO.sub.2R.sub.7-2 : ClR.sub.7-3 : ClR.sub.7-4 : ##STR733##Compound 7-(47)R.sub.7-1 : NO.sub.2R.sub.7-2 : ClR.sub.7-3 : ClR.sub.7-4 : ##STR734##Compound 7-(48)R.sub.7-1 : ##STR735##R.sub.7-2 : C.sub.2 H.sub.5R.sub.7-3 : HR.sub.7-4 : ##STR736##Compound 7-(49)R.sub.7-1 : ##STR737##R.sub.7-2 : CH.sub.3R.sub.7-3 : CH.sub.3R.sub.7-4 : ##STR738##Compound 7-(50)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : C.sub.4 H.sub.9 (t)R.sub.7-3 : HR.sub.7-4 : CHCHNO.sub.2 Compound 7-(51)R.sub.7-1 : ##STR739##R.sub.7-2 : NO.sub.2R.sub.7-3 : HR.sub.7-4 : ##STR740##Compound 7-(52)R.sub.7-1 : ##STR741##R.sub.7-2 : CH.sub.2R.sub.7-3 : HR.sub.7-4 : ##STR742##Compound 7-(53)R.sub.7-1 : ##STR743##R.sub.7-2 : CH.sub.2R.sub.7-3 : CH.sub.2R.sub.7-4 : ##STR744##Compound 7-(54)R.sub.7-1 : HR.sub.7-2 : ##STR745##R.sub.7-3 : HR.sub.7-4 : ##STR746##Compound 7-(55)R.sub.7-1 : NO.sub.2R.sub.7-2 : ##STR747##R.sub.7-3 : HR.sub.7-4 : ##STR748##Compound 7-(56)R.sub.7-1 : ##STR749##R.sub.7-2 : ##STR750##R.sub.7- 3 : CH.sub.3R.sub.7-4 : ##STR751##Compound 7-(57)R.sub.7-1 : ##STR752##R.sub.7-2 : ##STR753##R.sub.7-3 : ClR.sub.7-4 : ##STR754##Compound 7-(58)R.sub.7-1 : ##STR755##R.sub.7-2 : ##STR756##R.sub.7-3 : HR.sub.7-4 : HCompound 7-(59)R.sub.7-1 : NO.sub.2R.sub.7-2 : ##STR757##R.sub.7-3 : HR.sub.7-4 : HCompound 7-(60)R.sub.7-1 : NO.sub.2R.sub.7-2 : ##STR758##R.sub.7-3 : HR.sub.7-4 : HCompound 7-(61)R.sub.7-1 : ##STR759##R.sub.7-2 : ##STR760##R.sub.7-3 : HR.sub.7-4 : HCompound 7-(62)R.sub.7-1 : HR.sub.7-2 : NO.sub.2R.sub.7-3 : CHCHNO.sub.2R.sub.7-4 : HCompound 7-(63)R.sub.7-1 : HR.sub.7-2 : ##STR761##R.sub.7-3 : ##STR762##R.sub.7-4 : HCompound 7-(64)R.sub.7-1 : HR.sub.7-2 : NO.sub.2R.sub.7-3 : ##STR763##R.sub.7-4 : HCompound 7-(65)R.sub.7-1 : HR.sub.7-2 : ##STR764##R.sub.7-3 : ##STR765##R.sub.7-4 : HCompound 7-(66)R.sub.7-1 : NO.sub.2R.sub.7-2 : CHCHNO.sub.2R.sub.7-3 : HR.sub.7-4 : ##STR766##Compound 7-(67)R.sub.7-1 : ##STR767##R.sub.7-2 : NO.sub.2R.sub.7-3 : HR.sub.7-4 : ##STR768##Compound 7-(68)R.sub.7-1 : ##STR769##R.sub.7-2 : CHCHNO.sub.2R.sub.7-3 : HR.sub.7-4 : ##STR770##Compound 7-(69)R.sub.7-1 : ##STR771##R.sub.7-2 : ##STR772##R.sub.7-3 : HR.sub.7-4 : NO.sub.2Compound 7-(70)R.sub.7-1 : NO.sub.2R.sub.7-2 : ##STR773##R.sub.7-3 : ##STR774##R.sub.7-4 : NO.sub.2Compound 7-(71)R.sub.7-1 : ##STR775##R.sub.7-2 : ##STR776##R.sub.7-3 : ##STR777##R.sub.7-4 : ##STR778##Compound 7-(72)R.sub.7-1 : HR.sub.7-2 : NO.sub.2R.sub.7-3 : HR.sub.7-4 : ##STR779##Compound 7-(73)R.sub.7-1 : HR.sub.7-2 : ##STR780##R.sub.7-3 : HR.sub.7-4 : ##STR781##Compound 7-(74)R.sub.7-1 : HR.sub.7-2 : ##STR782##R.sub.7-3 : HR.sub.7-4 : NO.sub.2Compound 7-(75)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR783##Compound 7-(76)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR784##Compound 7-(77)R.sub.7-1 : ##STR785##R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR786##Compound 7-(78)R.sub.7-1 : CHCHNO.sub.2R.sub.7-2 : HR.sub.7-3 : HR.sub.7-4 : ##STR787##Compound 7-(79)R.sub.7-1 : CH.sub.3R.sub.7-2 : ##STR788##R.sub.7-3 : ##STR789##R.sub.7-4 : CH.sub.3Compound 7-(80)R.sub.7-1 : C.sub.2 H.sub.5R.sub.7-2 : ##STR790##R.sub.7-3 : ##STR791##R.sub.7-4 : C.sub.2 H.sub.5Compound 7-(81)R.sub.7-1 : ##STR792##R.sub.7-2 : ##STR793##R.sub.7-3 : ##STR794##R.sub.7-4 : ##STR795##Compound 7-(82)R.sub.7-1 : ##STR796##R.sub.7-2 : ##STR797##R.sub.7-3 : ##STR798##R.sub.7-4 : ##STR799##Compound 7-(83)R.sub.7-1 : ##STR800##R.sub.7-2 : ##STR801##R.sub.7-3 : ##STR802##R.sub.7-4 : ##STR803##Compound 7-(84)R.sub.7-1 : NO.sub.2R.sub.7-2 : HR.sub.7-3 : ##STR804##R.sub.7-4 : H______________________________________
______________________________________Basic constitution (Formula (8)) ##STR805##______________________________________Compound 8-(1)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : NO.sub.2Compound 8-(2)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : CHCHNO.sub.2Compound 8-(3)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR806##Compound 8-(4)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR807##Compound 8-(5)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR808##Compound 8-(6)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR809##Compound 8-(7)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR810##Compound 8-(8)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR811##Compound 8-(9)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR812##Compound 8-(10)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR813##Compound 8-(11)R.sub.8-1 : NO.sub.2R8-2 HR8-3 HR.sub.8-4 : ##STR814##Compound 8-(12)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : CHCHNO.sub.2Compound 8-(13)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR815##Compound 8-(14) R.sub.8-1 : (CHCH).sub.2 NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR816##Compound 8-(15)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR817##Compound 8-(16)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR818##Compound 8-(17)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR819##Compound 8-(18)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR820##Compound 8-(19)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR821##Compound 8-(20)R.sub.8-1 : ##STR822##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR823##Compound 8-(21)R.sub.8-1 : ##STR824##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR825## Compound 8-(22)R.sub.8-1 : ##STR826##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR827##Compound 8-(23)R.sub.8-1 : ##STR828##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR829##Compound 8-(24)R.sub.8-1 : ##STR830##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR831##Compound 8-(25)R.sub.8-1 : ##STR832##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR833##Compound 8-(26)R.sub.8-1 : ##STR834##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR835##Compound 8-(27)R.sub.8-1 : ##STR836##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR837##Compound 8-(28)R.sub.8-1 : ##STR838##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR839##Compound 8-(29)R.sub.8-1 : ##STR840##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR841##Compound 8-(30)R.sub.8-1 : ##STR842##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR843##Compound 8-(31)R.sub.8-1 : ##STR844##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR845##Compound 8-(32)R.sub.8-1 : ##STR846##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR847##Compound 8-(33)R.sub.8-1 : ##STR848##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR849##Compound 8-(34)R.sub.8-1 : ##STR850##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR851##Compound 8-(35)R.sub.8-1 : ##STR852##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR853##Compound 8-(36)R.sub.8-1 : ##STR854##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR855##Compound 8-(37)R.sub.8-1 : ##STR856##R.sub.8-2 : HR.sub. 8-3 : HR.sub.8-4 : ##STR857##Compound 8-(38)R.sub.8-1 : ##STR858##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR859##Compound 8-(39)R.sub.8-1 : ##STR860##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR861##Compound 8-(40)R.sub.8-1 : ##STR862##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR863##Compound 8-(41)R.sub.8-1 : NO.sub.2R.sub.8-2 : ClR.sub.8-3 : HR.sub.8-4 : ##STR864##______________________________________Compound 8-(42)R.sub.8-1 : NO.sub.2R.sub.8-2 : ClR.sub.8-3 : HR.sub.8-4 : ##STR865##Compound 8-(43)R.sub.8-1 : O.sub.2 NR.sub.8-2 : ClR.sub.8-3 : HR.sub.8-4 : ##STR866##Compound 8-(44)R.sub.8-1 : ##STR867##R.sub.8-2 : BrR.sub.8-3 : HR.sub.8-4 : ##STR868##Compound 8-(45)R.sub.8-1 : ##STR869##R.sub.8-2 : BrR.sub.8-3 : HR.sub.8-4 : ##STR870##Compound 8-(46)R.sub.8-1 : NO.sub.2R.sub.8-2 : ClR.sub.8-3 : ClR.sub.8-4 : ##STR871##Compound 8-(47)R.sub.8-1 : NO.sub.2R.sub.8-2 : ClR.sub.8-3 : ClR.sub.8-4 : ##STR872##Compound 8-(48)R.sub.8-1 : ##STR873##R.sub.8-2 : C.sub.2 H.sub.5R.sub.8-3 : HR.sub.8-4 : ##STR874##Compound 8-(49)R.sub.8-1 : ##STR875##R.sub.8-2 : CH.sub.3R.sub.8-3 : CH.sub.3R.sub.8-4 : ##STR876##Compound 8-(50)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : C.sub.4 H.sub.9 (t)R.sub.8-3 : HR.sub.8-4 : CHCHNO.sub.2Compound 8-(51)R.sub.8-1 : ##STR877##R.sub.8-2 : NO.sub.2R.sub.8-3 : HR.sub.8-4 : ##STR878##Compound 8-(52)R.sub.8-1 : ##STR879##R.sub.8-2 : CH.sub.2R.sub.8-3 : HR.sub.8-4 : ##STR880##Compound 8-(53)R.sub.8-1 : ##STR881##R.sub.8-2 : CH.sub.2R.sub.8-3 : CH.sub.2R.sub.8-4 : ##STR882##Compound 8-(54)R.sub.8-1 : HR.sub.8-2 : ##STR883##R.sub.8-3 : HR.sub.8-4 : ##STR884##Compound 8-(55)R.sub.8-1 : NO.sub.2R.sub.8-2 : ##STR885##R.sub.8-3 : HR.sub.8-4 : ##STR886##Compound 8-(56)R.sub.8-1 : ##STR887##R.sub.8-2 : ##STR888##R.sub.8-3 : CH.sub.3R.sub.8-4 : ##STR889##Compound 8-(57)R.sub.8-1 : ##STR890##R.sub.8-2 : ##STR891##R.sub.8-3 : ClR.sub.8-4 : ##STR892##Compound 8-(58)R.sub.8-1 : ##STR893##R.sub.8-2 : ##STR894##R.sub.8-3 : HR.sub.8-4 : HCompound 8-(59)R.sub.8-1 : NO.sub.2R.sub.8-2 : ##STR895##R.sub.8-3 : HR.sub.8-4 : HCompound 8-(60)R.sub.8-1 : NO.sub.2R.sub.8-2 : ##STR896##R.sub.8-3 : HR.sub.8-4 : HCompound 8-(61)R.sub.8-1 : ##STR897##R.sub.8-2 : ##STR898##R.sub.8-3 : HR.sub.8-4 : HCompound 8-(62)R.sub.8-1 : HR.sub.8-2 : NO.sub.2R.sub.8-3 : CHCHNO.sub.2R.sub.8-4 : HCompound 8-(63)R.sub.8-1 : HR.sub.8-2 : ##STR899##R.sub.8-3 : ##STR900##R.sub.8-4 : HCompound 8-(64)R.sub.8-1 : HR.sub.8-2 : NO.sub.2R.sub.8-3 : ##STR901##R.sub.8-4 : HCompound 8-(65)R.sub.8-1 : HR.sub.8-2 : ##STR902##R.sub.8-3 : ##STR903##R.sub.8-4 : HCompound 8-(66)R.sub.8-1 : NO.sub.2R.sub.8-2 : CHCHNO.sub.2R.sub.8-3 : HR.sub.8-4 : ##STR904##Compound 8-(67)R.sub.8-1 : ##STR905##R.sub.8-2 : NO.sub.2R.sub.8-3 : HR.sub.8-4 : ##STR906##Compound 8-(68)R.sub.8-1 : ##STR907##R.sub.8-2 : CHCHNO.sub.2R.sub.8-3 : HR.sub.8-4 : ##STR908##Compound 8-(69)R.sub.8-1 : ##STR909##R.sub.8-2 : ##STR910##R.sub.8-3 : HR.sub.8-4 : NO.sub.2Compound 8-(70)R.sub.8-1 : NO.sub.2R.sub.8-2 : ##STR911##R.sub.8-3 : ##STR912##R.sub.8-4 : NO.sub.2Compound 8-(71)R.sub.8-1 : ##STR913##R.sub.8-2 : ##STR914##R.sub.8-3 : ##STR915##R.sub.8-4 : ##STR916##Compound 8-(72)R.sub.8-1 : HR.sub.8-2 : NO.sub.2R.sub.8-3 : HR.sub.8-4 : ##STR917##Compound 8-(73)R.sub.8-1 : HR.sub.8-2 : ##STR918##R.sub.8-3 : HR.sub.8-4 : ##STR919##Compound 8-(74)R.sub.8-1 : HR.sub.8-2 : ##STR920##R.sub.8-3 : HR.sub.8-4 : NO.sub.2Compound 8-(75)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR921##Compound 8-(76)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR922##Compound 8-(77)R.sub.8-1 : ##STR923##R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR924##Compound 8-(78)R.sub.8-1 : CHCHNO.sub.2R.sub.8-2 : HR.sub.8-3 : HR.sub.8-4 : ##STR925##Compound 8-(79)R.sub.8-1 : CH.sub.3R.sub.8-2 : ##STR926##R.sub.8-3 : ##STR927##R.sub.8-4 : CH.sub.3Compound 8-(80)R.sub.8-1 : C.sub.2 H.sub.5R.sub.8-2 : ##STR928##R.sub.8-3 : ##STR929##R.sub.8-4 : C.sub.2 H.sub.5Compound 8-(81)R.sub.8-1 : ##STR930##R.sub.8-2 : ##STR931##R.sub.8-3 : ##STR932##R.sub.8-4 : ##STR933##Compound 8-(82)R.sub.8-1 : ##STR934##R.sub.8-2 : ##STR935##R.sub.8-3 : ##STR936##R.sub.8-4 : ##STR937##Compound 8-(83)R.sub.8-1 : ##STR938##R.sub.8-2 : ##STR939##R.sub.8-3 : ##STR940##R.sub.8-4 : ##STR941##Compound 8-(84)R.sub.8-1 : NO.sub.2R.sub.8-2 : HR.sub.8-3 : ##STR942##R.sub.8-4 : H______________________________________
______________________________________Basic constitution (Formula (9)) ##STR943##______________________________________Compound 9-(1)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : CHCHNO.sub.2i: 1Compound 9-(2)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR944##i: 1Compound 9-(3)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR945##i: 1Compound 9-(4)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : CHCHNO.sub.2i: 1Compound 9-(5)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR946##i: 1Compound 9-(6)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR947##i: 1Compound 9-(7)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR948##i: 1Compound 9-(8)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR949##i: 1Compound 9-(9)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR950##i: 1Compound 9-(10)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR951##i: 1Compound 9-(11)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR952##i: 1Compound 9-(12)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR953##i: 1Compound 9-(13)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR954##i: 1Compound 9-(14)R.sub.9-1 : (CHCH).sub.2 NO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : (CHCH).sub.2 NO.sub.2i: 1Compound 9-(15)R.sub.9-1 : (CHCH).sub.2 NO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR955##i: 1Compound 9-(16)R.sub.9-1 : (CHCH).sub.2 NO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR956##i: 1Compound 9-(17)R.sub.9-1 : (CHCH).sub.2 NO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR957##i: 1Compound 9-(18)R.sub.9-1 : (CHCH).sub.2 NO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR958##i: 1Compound 9-(19)R.sub.9-1 : (CHCH).sub.2 NO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR959##i: 1Compound 9-(20)R.sub.9-1 : ##STR960##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR961##i: 1Compound 9-(21)R.sub.9-1 : ##STR962##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR963##i: 1Compound 9-(22)R.sub.9-1 : ##STR964##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR965##i: 1Compound 9-(23)R.sub.9-1 : ##STR966##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR967##i: 1Compound 9-(24)R.sub.9-1 : ##STR968##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR969##i: 1Compound 9-(25)R.sub.9-1 : ##STR970##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR971##i: 1Compound 9-(26)R.sub.9-1 : ##STR972##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR973##i: 1Compound 9-(27)R.sub.9-1 : ##STR974##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR975##i: 1Compound 9-(28)R.sub.9-1 : ##STR976##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR977##i: 1Compound 9-(29)R.sub.9-1 : ##STR978##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : (CHCH).sub.2 NO.sub.2i: 1Compound 9-(30)R.sub.9-1 : ##STR979##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR980##i: 1Compound 9-(31)R.sub.9-1 : ##STR981##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR982##i: 1Compound 9-(32)R.sub.9-1 : ##STR983##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR984##i: 1Compound 9-(33)R.sub.9-1 : ##STR985##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR986##i: 2Compound 9-(34)R.sub.9-1 : ##STR987##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR988##i: 1Compound 9-(35)R.sub.9-1 : ##STR989##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR990##i: 1Compound 9-(36)R.sub.9-1 : ##STR991##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR992##i: 1Compound 9-(37)R.sub.9-1 : ##STR993##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR994##i: 1Compound 9-(38)R.sub.9-1 : ##STR995##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR996##i: 1Compound 9-(39)R.sub.9-1 : ##STR997##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR998##i: 2Compound 9-(40)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : CHCHNO.sub.2i: 2Compound 9-(41)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : ClR.sub.9-3 : HR.sub.9-4 : CHCHNO.sub.2i: 2Compound 9-(42)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : BrR.sub.9-3 : HR.sub.9-4 : ##STR999##i: 1Compound 9-(43)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : ClR.sub.9-3 : ClR.sub.9-4 : ##STR1000##i: 1Compound 9-(44)R.sub.9-1 : ##STR1001##R.sub.9-2 : BrR.sub.9-3 : HR.sub.9-4 : ##STR1002##i: 1Compound 9-(45)R.sub.9-1 : ##STR1003##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1004##i: 1Compound 9-(46)R.sub.9-1 : ##STR1005##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1006##i: 1Compound 9-(47)R.sub.9-1 : ##STR1007##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1008##i: 1Compound 9-(48)R.sub.9-1 : ##STR1009##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1010##i: 1Compound 9-(49)R.sub.9-1 : ##STR1011##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1012##i: 1Compound 9-(50)R.sub.9-1 : ##STR1013##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1014##i: 1Compound 9-(51)R.sub.9-1 : ##STR1015##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1016##i: 1Compound 9-(52)R.sub.9-1 : ##STR1017##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1018##i: 2Compound 9-(53)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : CH.sub.3R.sub.9-3 : HR.sub.9-4 : ##STR1019##i: 1Compound 9-(54)R.sub.9-1 : ##STR1020##R.sub.9-2 : C.sub.2 H.sub.5R.sub.9-3 : HR.sub.9-4 : ##STR1021##i: 1Compound 9-(55)R.sub.9-1 : ##STR1022##R.sub.9-2 : C.sub.4 H.sub.9 (t)R.sub.9-3 : HR.sub.9-4 : ##STR1023##i: 1Compound 9-(56)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : CH.sub.3R.sub.9-3 : CH.sub.3R.sub.9-4 : ##STR1024##i: 1Compound 9-(57)R.sub.9-1 : ##STR1025##R.sub.9-2 : C.sub.4 H.sub.9 (t)R.sub.9-3 : CH.sub.3R.sub.9-4 : ##STR1026##i: 1Compound 9-(58)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : HR.sub.9-4 : ##STR1027##i: 1Compound 9-(59)R.sub.9-1 : ##STR1028##R.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : HR.sub.9-4 : ##STR1029##i: 1Compound 9-(60)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : ##STR1030##R.sub.9-3 : CH.sub.3R.sub.9-4 : ##STR1031##i: 1Compound 9-(61)R.sub.9-1 : ##STR1032##R.sub.9-2 : CH.sub.2R.sub.9-3 : HR.sub.9-4 : ##STR1033##i: 1Compound 9-(62)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : ##STR1034##R.sub.9-3 : ClR.sub.9-4 : (CHCH).sub.2 NO.sub.2i: 1Compound 9-(63)R.sub.9-1 : ##STR1035##R.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : HR.sub.9-4 : C.sub.4 H.sub.9 (t)i: 1Compound 9-(64)R.sub.9-1 : ##STR1036##R.sub.9-2 : HR.sub.9-3 : ##STR1037##R.sub.9-4 : Hi: 1Compound 9-(65)R.sub.9-1 : ##STR1038##R.sub.9-2 : (CHCH).sub.2 NO.sub.2R.sub.9-3 : CH.sub.3R.sub.9-4 : Hi: 1Compound 9-(66)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : ##STR1039##R.sub.9-3 : HR.sub.9-4 : Hi: 2Compound 9-(67)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : ##STR1040##R.sub.9-3 : HR.sub.9-4 : Hi: 1Compound 9-(68)R.sub.9-1 : ##STR1041##R.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : C.sub.4 H.sub.9 (t)R.sub.9-4 : Hi: 1Compound 9-(69)R.sub.9-1 : ##STR1042##R.sub.9-2 : HR.sub.9-3 : CHCHNO.sub.2R.sub.9-4 : CH.sub.3i: 1Compound 9-(70)R.sub.9-1 : HR.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : CHCHNO.sub.2R.sub.9-4 : Hi: 1Compound 9-(71)R.sub.9-1 : HR.sub.9-2 : ##STR1043##R.sub.9-3 : ##STR1044##R.sub.9-4 : Hi: 1Compound 9-(72)R.sub.9-1 : HR.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : ##STR1045##R.sub.9-4 : Hi: 1Compound 9-(73)R.sub.9-1 : HR.sub.9-2 : CHCH).sub.2 NO.sub.2R.sub.9-3 : ##STR1046##R.sub.9-4 : Hi: 1Compound 9-(74)R.sub.9-1 : CH.sub.3R.sub.9-2 : ##STR1047##R.sub.9-3 : (CHCH).sub.2 NO.sub.2R.sub.9-4 : CH.sub.3i: 1Compound 9-(75)R.sub.9-1 : ##STR1048##R.sub.9-2 : ##STR1049##R.sub.9-3 : CHCHNO.sub.2R.sub.9-4 : CHCHNO.sub.2i: 1Compound 9-(76)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : CH.sub.3R.sub.9-3 : HR.sub.9-4 : ##STR1050##i: 1Compound 9-(77)R.sub.9-1 : ##STR1051##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1052##i: 1Compound 9-(78)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1053##i: 1Compound 9-(79)R.sub.9-1 : ##STR1054##R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1055##i: 1Compound 9-(80)R.sub.9-1 : ##STR1056##R.sub.9-2 : HR.sub.9-3 : CHCHNO.sub.2R.sub.9-4 : Hi: 1Compound 9-(81)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : CH.sub.3R.sub.9-3 : ##STR1057##R.sub.9-4 : Hi: 1Compound 9-(82)R.sub.9-1 : C.sub.4 H.sub.9 (t)R.sub.9-2 : (CHCH).sub.2 NO.sub.2R.sub.9-3 : ##STR1058##R.sub.9-4 : Hi: 1Compound 9-(83)R.sub.9-1 : C.sub.4 H.sub.9 (t)R.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : ##STR1059##R.sub.9-4 : Hi: 1Compound 9-(84)R.sub.9-1 : ##STR1060##R.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : CHCHNO.sub.2R.sub.9-4 : ##STR1061##i: 1 Compound 9-(85)R.sub.9-1 : ##STR1062##R.sub.9-2 : CHCHNO.sub.2R.sub.9-3 : ##STR1063##R.sub.9-4 : ##STR1064##i: 1Compound 9-(86)R.sub.9-1 : ##STR1065##R.sub.9-2 : ##STR1066##R.sub.9-3 : ##STR1067##R.sub.9-4 : ##STR1068##i: 1Compound 9-(87)R.sub.9-1 : ##STR1069##R.sub.9-2 : HR.sub.9-3 : CHCHNO.sub.2R.sub.9-4 : C.sub.2 H.sub.5i: 1Compound 9-(88)R.sub.9-1 : ##STR1070##R.sub.9-2 : HR.sub.9-3 : ##STR1071##R.sub.9-4 : Hi: 1Compound 9-(89)R.sub.9-1 : CHCHNO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : CHCHNO.sub.2i: 2Compound 9-(90)R.sub.9-1 : ##STR1072##R.sub.9-2 : HR.sub.9-3 : CH.sub.3R.sub.9-4 : ##STR1073##i: 2Compound 9-(91)R.sub.9-1 : (CHCH).sub.2 NO.sub.2R.sub.9-2 : HR.sub.9-3 : HR.sub.9-4 : ##STR1074##i: 2______________________________________
______________________________________Basic constitution (Formula (10)) ##STR1075##______________________________________Compound 10-(1)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : CHCHNO.sub.2j: 1Compound 10-(2)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1076##j: 1Compound 10-(3)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1077##j: 1Compound 10-(4)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : (CHCH).sub.2NO.sub.2j: 1Compound 10-(5)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1078##j: 1Compound 10-(6)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1079##j: 1Compound 10-(7)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1080##j: 1Compound 10-(8)R.sub.10-1 : CH CHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1081##j: 1Compound 10-(9)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1082##j: 1Compound 10-(10)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1083##j: 1Compound 10-(11)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1084##j: 1Compound 10-(12)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1085##j: 1Compound 10-(13)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1086##j: 1Compound 10-(14)R.sub.10-1 : (CHCH).sub.2 NO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : (CHCH).sub.2 NO.sub.2j: 1Compound 10-(15)R.sub.10-1 : (CHCH).sub.2 NO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1087##j: 1Compound 10-(16)R.sub.10-1 : (CHCH).sub.2 NO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1088##j: 1Compound 10-(17)R.sub.10-1 : (CHCH).sub.2 NO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1089##j: 1Compound 10-(18)R.sub.10-1 : (CHCH).sub.2 NO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1090##j: 2Compound 10-(19)R.sub.10-1 : (CHCH).sub.2 NO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1091##j: 1Compound 10-(20)R.sub.10-1 : ##STR1092##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1093##j: 1Compound 10-(21)R.sub.10-1 : ##STR1094##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1095##j: 1Compound 10-(22)R.sub.10-1 : ##STR1096##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1097##j: 1Compound 10-(23)R.sub.10-1 : ##STR1098##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1099##j: 1Compound 10-(24)R.sub.10-1 : ##STR1100##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1101##j: 2Compound 10-(25)R.sub.10-1 : ##STR1102##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1103##j: 1Compound 10-(26)R.sub.10-1 : ##STR1104##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1105##j: 1Compound 10-(27)R.sub.10-1 : ##STR1106##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1107##j: 1Compound 10-(28)R.sub.10-1 : ##STR1108##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1109##j: 1Compound 10-(29)R.sub.10-1 : ##STR1110##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : (CHCH).sub.2 NO.sub.2j: 1Compound 10-(30)R.sub.10-1 : ##STR1111##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1112##j: 1Compound 10-(31)R.sub.10-1 : ##STR1113##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1114##j: 1Compound 10-(32)R.sub.10-1 : ##STR1115##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1116##j: 1Compound 10-(33)R.sub.10-1 : ##STR1117##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1118##j: 2Compound 10-(34)R.sub.10-1 : ##STR1119##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1120##j: 1Compound 10-(35)R.sub.10-1 : ##STR1121##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1122##j: 1Compound 10-(36)R.sub.10-1 : ##STR1123##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1124##j: 1Compound 10-(37)R.sub.10-1 : ##STR1125##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1126##j: 1Compound 10-(38)R.sub.10-1 : ##STR1127##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1128##j: 1Compound 10-(39)R.sub.10-1 : ##STR1129##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1130##j: 2Compound 10-(40)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : CHCHNO.sub.2j: 2Compound 10-(41)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : ClR.sub.10-3 : HR.sub.10-4 : CHCHNO.sub.2j: 2Compound 10-(42)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : BrR.sub.10-3 : HR.sub.10-4 : ##STR1131##j: 1Compound 10-(43)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : ClR.sub.10-3 : ClR.sub.10-4 : ##STR1132##j: 1Compound 10-(44)R.sub.10-1 : ##STR1133##R.sub.10-2 : BrR.sub.10-3 : HR.sub.10-4 : ##STR1134##j: 1Compound 10-(45)R.sub.10-1 : ##STR1135##R.sub.10-2 : HR.sub. 10-3 : HR.sub.10-4 : ##STR1136##j: 1Compound 10-(46)R.sub.10-1 : ##STR1137##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1138##j: 1Compound 10-(47)R.sub.10-1 : ##STR1139##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1140##j: 1Compound 10-(48)R.sub.10-1 : ##STR1141##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1142##j: 1Compound 10-(49)R.sub.10-1 : ##STR1143##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1144##j: 1Compound 10-(50)R.sub.10-1 : ##STR1145##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1146##j: 1Compound 10-(51)R.sub.10-1 : ##STR1147##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1148##j: 1Compound 10-(52)R.sub.10-1 : ##STR1149##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1150##j: 2Compound 10-(53)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : CH.sub.3R.sub.10-3 : HR.sub.10-4 : ##STR1151##j: 1Compound 10-(54)R.sub.10-1 : ##STR1152##R.sub.10-2 : C.sub.2 H.sub.5R.sub.10-3 : HR.sub.10-4 : ##STR1153##j: 1Compound 10-(55)R.sub.10-1 : ##STR1154##R.sub.10-2 : C.sub.4 H.sub.9 (t)R.sub.10-3 : HR.sub.10-4 : ##STR1155##j: 1Compound 10-(56)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : CH.sub.3R.sub.10-3 : CH.sub.3R.sub.10-4 : ##STR1156##j: 1Compound 10-(57)R.sub.10-1 : ##STR1157##R.sub.10-2 : C.sub.4 H.sub.9 (t)R.sub.10-3 : CH.sub.3R.sub.10-4 : ##STR1158##j: 1Compound 10-(58)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : HR.sub.10-4 : ##STR1159##j: 1Compound 10-(59)R.sub.10-1 : ##STR1160##R.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : HR.sub.10-4 : ##STR1161##j: 1Compound 10-(60)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : ##STR1162##R.sub.10-3 : CH.sub.3R.sub.10-4 : ##STR1163##j: 1Compound 10-(61)R.sub.10-1 : ##STR1164##R.sub.10-2 : ##STR1165##R.sub.10- 3 : HR.sub.10-4 : ##STR1166##j: 1Compound 10-(62)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : ##STR1167##R.sub.10-3 : ##STR1168##R.sub.10-4 : (CHCH).sub.2 NO.sub.2j: 1Compound 10-(63)R.sub.10-1 : ##STR1169##R.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : HR.sub.10-4 : C.sub.4 H.sub.9 (t)j: 1Compound 10-(64)R.sub.10-1 : ##STR1170##R.sub.10-2 : HR.sub.10-3 : ##STR1171##R.sub.10-4 : Hj: 1Compound 10-(65)R.sub.10-1 : ##STR1172##R.sub.10-2 : (CHCH).sub.2 NO.sub.2R.sub.10-3 : CH.sub.3R.sub.10-4 : Hj: 1Compound 10-(66)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : ##STR1173##R.sub.10-3 : HR.sub.10-4 : Hj: 2Compound 10-(67)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : ##STR1174##R.sub.10-3 : HR.sub.10-4 : Hj: 1Compound 10-(68)R.sub.10-1 : ##STR1175##R.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : C.sub.4 H.sub.9 (t)R.sub.10-4 : Hj: 1Compound 10-(69)R.sub.10-1 : ##STR1176##R.sub.10-2 : HR.sub.10-3 : CHCHNO.sub.2R.sub.10-4 : CH.sub.3j: 1Compound 10-(70)R.sub.10-1 : HR.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : CHCHNO.sub.2R.sub.10-4 : Hj: 1Compound 10-(71)R.sub.10-1 : HR.sub.10-2 : ##STR1177##R.sub.10-3 : ##STR1178##R.sub.10- 4 : Hj: 1Compound 10-(72)R.sub.10-1 : HR.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : ##STR1179##R.sub.10-4 : Hj: 1Compound 10-(73)R.sub.10-1 : HR.sub.10-2 : (CHCH).sub.2 NO.sub.2R.sub.10-3 : ##STR1180##R.sub.10-4 : Hj: 1Compound 10-(74)R.sub.10-1 : CH.sub.3R.sub.10-2 : ##STR1181##R.sub.10-3 : (CHCH).sub.2 NO.sub.2R.sub.10-4 : CH.sub.3j: 1Compound 10-(75)R.sub.10-1 : ##STR1182##R.sub.10-2 : ##STR1183##R.sub.10-3 : CHCHNO.sub.2R.sub.10-4 : CHCHNO.sub.2j: 1Compound 10-(76)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : CH.sub.3R.sub.10-3 : HR.sub.10-4 : ##STR1184##j: 1Compound 10-(77)R.sub.10-1 : ##STR1185##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1186##j: 1Compound 10-(78)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1187##j: 1Compound 10-(79)R.sub.10-1 : ##STR1188##R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1189##j: 1Compound 10-(80)R.sub.10-1 : ##STR1190##R.sub.10-2 : HR.sub.10-3 : CHCHNO.sub.2R.sub.10-4 : Hj: 1Compound 10-(81)R.sub.10-1 : CHCH NO.sub.2R.sub.10-2 : CH.sub.3R.sub.10-3 : ##STR1191##R.sub.10-4 : Hj: 1Compound 10-(82)R.sub.10-1 : C.sub.4 H.sub.9 (t)R.sub.10-2 : (CHCH).sub.2 NO.sub.2R.sub.10-3 : ##STR1192##R.sub.10-4 : Hj: 1Compound 10-(83)R.sub.10-1 : C.sub.4 H.sub.9 (t)R.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : ##STR1193##R.sub.10-4 : Hj: 1Compound 10-(84)R.sub.10-1 : ##STR1194##R.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : CHCHNO.sub.2R.sub.10-4 : ##STR1195##j: 1Compound 10-(85)R.sub.10-1 : ##STR1196##R.sub.10-2 : CHCHNO.sub.2R.sub.10-3 : ##STR1197##R.sub.10-4 : ##STR1198##j: 1Compound 10-(86)R.sub.10-1 : ##STR1199##R.sub.10-2 : ##STR1200##R.sub.10-3 : ##STR1201##R.sub.10-4 : ##STR1202##j: 1Compound 10-(87)R.sub.10-1 : ##STR1203##R.sub.10-2 : HR.sub.10-3 : CHCHNO.sub.2R.sub.10-4 : C.sub.2 H.sub.5j: 1Compound 10-(88)R.sub.10-1 : ##STR1204##R.sub.10-2 : HR.sub.10-3 : ##STR1205##R.sub.10-4 : Hj: 1Compound 10-(89)R.sub.10-1 : CHCHNO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : CHCHNO.sub.2j: 2Compound 10-(90)R.sub.10-1 : ##STR1206##R.sub.10-2 : HR.sub.10-3 : CH.sub.3R.sub.10-4 : ##STR1207##j: 2Compound 10-(91)R.sub.10-1 : (CHCH).sub.2 NO.sub.2R.sub.10-2 : HR.sub.10-3 : HR.sub.10-4 : ##STR1208##j: 2______________________________________
______________________________________Basic constitution (Formula (11)) ##STR1209##______________________________________Compound 11-(1)R.sub.11-1 : NO.sub.2R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(2)R.sub.11-1 : CHCHNO.sub.2R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(3)R.sub.11-1 : (CHCH).sub.2NO.sub.2R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(4)R.sub.11-1 : ##STR1210##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(5)R.sub. 11-1 : ##STR1211##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(6)R.sub.11-1 : ##STR1212##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(7)R.sub.11-1 : ##STR1213##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(8)R.sub.11-1 : ##STR1214##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(9)R.sub.11-1 : ##STR1215##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(10)R.sub.11-1 : ##STR1216##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(11)R.sub.11-1 : ##STR1217##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(12)R.sub.11-1 : ##STR1218##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(13)R.sub.11-1 : ##STR1219##R.sub.11-2 : HR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(14)R.sub.11-1 : ##STR1220##R.sub.11-2 : HR.sub.11-3 : BrR.sub.11-4 : ClCompound 11-(15)R.sub.11-1 : ##STR1221##R.sub.11-2 : HR.sub.11-3 : BrR.sub.11-4 : BrCompound 11-(16)R.sub.11-1 : ##STR1222##R.sub.11-2 : HR.sub.11-3 : CH.sub.3R.sub.11-4 : ClCompound 11-(17)R.sub.11-1 : ##STR1223##R.sub.11-2 : HR.sub.11-3 : C.sub.4 H.sub.9 (t)R.sub.11-4 : CH.sub.3Compound 11-(18)R.sub.11-1 : CHCHNO.sub.2R.sub.11-2 : ##STR1224##R.sub.11-3 : C.sub.4 H.sub.9 (t)R.sub.11-4 : ClCompound 11-(19)R.sub.11-1 : CHCHNO.sub.2R.sub.11-2 : ##STR1225##R.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(20)R.sub.11-1 : CHCHNO.sub.2R.sub.11-2 : NO.sub.2R.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(21)R.sub.11-1 : CHCHNO.sub.2R.sub.11-2 : CNR.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(22)R.sub.11-1 : ##STR1226##R.sub.11-2 : CHCH.sub.2R.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(23)R.sub.11-1 : ##STR1227##R.sub.11-2 : C.sub.2 H.sub.5R.sub.11-3 : C.sub.2 H.sub.5R.sub.11-4 : CH.sub.3Compound 11-(24)R.sub.11-1 : ##STR1228##R.sub.11-2 : CNR.sub.11-3 : C.sub.4 H.sub.9 (t)R.sub.11-4 : BrCompound 11-(25)R.sub.11-1 : ##STR1229##R.sub.11-2 : NO.sub.2R.sub.11-3 : C.sub.4 H.sub.9 (t)R.sub.11-4 : BrCompound 11-(26)R.sub.11-1 : ##STR1230##R.sub.11-2 : ##STR1231##R.sub.11-3 : C.sub.4 H.sub.9 (t)R.sub.11-4 : CH.sub.3Compound 11-(27)R.sub.11-1 : HR.sub.11-2 : CHCHNO.sub.2R.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(28)R.sub.11-1 : HR.sub.11-2 : (CHCH).sub.2NO.sub.2R.sub.11-3 : ClR.sub.11-4 : ClCompound 11-(29)R.sub.11-1 : HR.sub.11-2 : ##STR1232##R.sub.11-3 : CNR.sub.11-4 : ClCompound 11-(30)R.sub.11-1 : HR.sub.11-2 : ##STR1233##R.sub.11-3 : NO.sub.2R.sub.11-4 : ClCompound 11-(31) R.sub.11-1 : ClR.sub.11-2 : ##STR1234##R.sub.11-3 : NO.sub.2R.sub.11-4 : CNCompound 11-(32)R.sub.11-1 : ClR.sub.11-2 : ##STR1235##R.sub.11-3 : NO.sub.2R.sub.11-4 : NO.sub.2Compound 11-(33)R.sub.11-1 : ClR.sub.11-2 : ##STR1236##R.sub.11-3 : CH.sub.3R.sub.11-4 : CH.sub.3Compound 11-(34)R.sub.11-1 : ClR.sub.11-2 : ##STR1237##R.sub.11-3 : C.sub.4 H.sub.9 (t)R.sub.11-4 : CH.sub.3Compound 11-(35)R.sub.11-1 : CH.sub.3R.sub.11-2 : ##STR1238##R.sub.11-3 : ClR.sub.11-4 : C.sub.4 H.sub.9 (t)Compound 11-(36)R.sub.11-1 : C.sub.2 H.sub.5R.sub.11-2 : CHCHNO.sub.2R.sub.11-3 : C.sub.2 H.sub.5R.sub.11-4 : CH.sub.3Compound 11-(37)R.sub.11-1 : C.sub.4 H.sub.9 (t)R.sub.11-2 : CHCHNO.sub.2R.sub.11-3 : BrR.sub.11-4 : BrCompound 11-(38)R.sub.11-1 : CH.sub.3R.sub.11-2 : ##STR1239##R.sub.11-3 : CNR.sub.11-4 : NO.sub.2Compound 11-(39)R.sub.11-1 : CH.sub.3R.sub.11-2 : NO.sub.2R.sub.11-3 : ClR.sub.11-4 : CN______________________________________
______________________________________Basic constitution (Formula (12)) ##STR1240##______________________________________Compound 12-(1)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(2)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(3)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1241##Compound 12-(4)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1242##Compound 12-(5)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : (CHCH).sub.2NO.sub.2Compound 12-(6)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1243##Compound 12-(7)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1244##Compound 12-(8)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about. R.sub.12-5 : HR.sub.12-6 : ##STR1245##Compound 12-(9)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1246##Compound 12-(10)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1247##Compound 12-(11)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1248##Compound 12-(12)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1249##Compound 12-(13)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1250##Compound 12-(14)R.sub.12-1 : NO.sub.2R.sub.12-2 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(15)R.sub.12-1 : NO.sub.2R.sub.12-2 : HR.sub.12-3 : ClR.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1251##Compound 12-(16)R.sub.12-1 : NO.sub.2R.sub.12-2 : HR.sub.12-3 : BrR.sub.12-4 : HR.sub.12-5 : CHCHNO.sub.2R.sub.12-6 : HCompound 12-(17)R.sub.12-1 : NO.sub.2R.sub.12-2 .about.R.sub.12-4 : HR.sub.12-5 : ##STR1252##R.sub.12-6 : HCompound 12-(18)R.sub.12-1 NO.sub.2R.sub.12-2, R.sub.12-3 : HR.sub.12-4 : (CHCH).sub.2NO.sub.2R.sub.12-5 : HR.sub.12-6 : C.sub.4 H.sub.9 (t)Compound 12-(19)R.sub.12-1 : NO.sub.2R.sub.12-2 : HR.sub.12-3 : ##STR1253##R.sub.12-4 : HR.sub.12-5 : CH.sub.3R.sub.12-6 : HCompound 12-(20)R.sub.12-1 : NO.sub.2R.sub.12-2 : HR.sub.12-3 : ##STR1254##R.sub.12-4 .about.R.sub.12-6 : HCompound 12-(21)R.sub.12-1 : NO.sub.2R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : C.sub.2 H.sub.5Compound 12-(22)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(23)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1255##Compound 12-(24)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1256##Compound 12-(25)R.sub.12-1 : BrR.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : (CHCH).sub.2NO.sub.2Compound 12-(26)R.sub.12-1 : ClR.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1257##Compound 12-(27)R.sub.12-1, R.sub.12-2 : HR.sub.12- 3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1258##Compound 12-(28)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4 : HR.sub.12-5 : CHCHNO.sub.2R.sub.12-6 : HCompound 12-(29)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : ##STR1259##R.sub.12-6 : HCompound 12-(30)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : ##STR1260##R.sub.12-6 : HCompound 12-(31)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : NO.sub.2R.sub.12-5 : HR.sub.12-6 : ##STR1261##Compound 12-(32)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : NO.sub.2R.sub.12-5 : HR.sub.12-6 : (CHCH).sub.2NO.sub.2Compound 12-(33)R.sub.12-1 : HR.sub.12-2 : CHCHNO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(34)R.sub.12-1 : HR.sub.12-2 : CHCHNO.sub.2R.sub.12-3 : HR.sub.12-4 : ClR.sub.12-5 : HR.sub.12-6 : ##STR1262##Compound 12-(35)R.sub.12-1 : HR.sub.12-2 : CHCHNO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1263##Compound 12-(36)R.sub.12-1 : HR.sub.12-2 : CHCHNO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1264##Compound 12-(37)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1265##Compound 12-(38)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12- 6 : ##STR1266##Compound 12-(39)R.sub.12 1 : HR.sub.12-2 : NO.sub.2R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : CHCHNO.sub.2R.sub.12-6 : HCompound 12-(40)R.sub.12-1 : HR.sub.12-2 : CHCHNO.sub.2R.sub.12-3 : HR.sub.12-4 : ##STR1267##R.sub.12-5, R.sub.12-6 : HCompound 12-(41)R.sub.12-1 : HR.sub.12-2 : CHCHNO.sub.2R.sub.12-3 : HR.sub.12-4 : ##STR1268##R.sub.12-5, R.sub.12-6 : HCompound 12-(42)R.sub.12-1: HR.sub.12-2 : (CHCH).sub.2NO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1269##Compound 12-(43)R.sub.12-1 : HR.sub.12-2 : (CHCH).sub.2NO.sub.2R.sub.12-3 : HR.sub.12-4 : ClR.sub.12-5 : ##STR1270##R.sub.12-6 : HCompound 12-(44)R.sub.12-1 CHCHNO.sub.2R.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4 .about.R.sub.12-6 : HCompound 12-(45)R.sub.12-1 : CHCHNO.sub.2R.sub.12-2 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1271##Compound 12-(46)R.sub.12-1 : (CHCH).sub.2NO.sub.2R.sub.12-2 .about.R.sub.12-4 : HR.sub.12-5 : ##STR1272##R.sub.12-6 : HCompound 12-(47)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4 R.sub.12-5 : HR.sub.12-6 : (CHCH).sub.2NO.sub.2Compound 12-(48)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1273##Compound 12-(49)R.sub.12-1 : ClR.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1274##Compound 12-(50)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1275##Compound 12-(51)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4 : HR.sub.12-5 : (CHCH).sub.2NO.sub.2R.sub.12-6 : HCompound 12-(52)R.sub.12-1 : CH.sub.3R.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4 : HR.sub.12-5 : ##STR1276##R.sub.12-6 : HCompound 12-(53)R.sub.12- 1, R.sub.12-2 : HR.sub.12-3 : (CHCH).sub.2NO.sub.2R.sub.12-4 : HR.sub.12-5 : ##STR1277##R.sub.12-6 : HCompound 12-(54)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : CHCHNO.sub.2R.sub.12-5 : HR.sub.12-6 : ##STR1278##Compound 12-(55)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : CHCHNO.sub.2R.sub.12-5 : (CHCH).sub.2NO.sub.2R.sub.12-6 : HCompound 12-(56)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : (CHCH).sub.2NO.sub.2R.sub.12-5 : (CHCH).sub.2NO.sub.2R.sub.12-6 : HCompound 12-(57)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : CHCHNO.sub.2R.sub.12-6 : CHCHNO.sub.2Compound 12-(58)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : CHCHNO.sub.2R.sub.12-6 : ##STR1279##Compound 12-(59)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : CHCHNO.sub.2Compound 12-(60)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : ##STR1280##Compound 12-(61)R.sub.12-1 : HR.sub.12-2 : ##STR1281##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(62)R.sub.12-1 : HR.sub.12-2 : CHCHNO.sub.2R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(63)R.sub.12-1 : HR.sub.12-2 : (CHCH).sub.2NO.sub.2R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : HCompound 12-(64)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : CHCHNO.sub.2R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(65)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : (CHCH).sub.2NO.sub.2R.sub.12-5 : NO.sub.2R.sub.12-6 : HCompound 12-(66)R.sub.12-1 : HR.sub.12-2 : ##STR1282##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1283##Compound 12-(67)R.sub.12-1 : HR.sub.12-2 : ##STR1284##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1285##Compound 12-(68)R.sub.12-1 : HR.sub.12-2 : ##STR1286##R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : ##STR1287##R.sub.12-6 : HCompound 12-(69)R.sub.12-1 : HR.sub.12-2 : ##STR1288##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : (CHCH).sub.2NO.sub.2Compound 12-(70)R.sub.12-1 : HR.sub.12-2 : ##STR1289##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1290##Compound 12-(71)R.sub.12-1 : HR.sub.12-2 : ##STR1291##R.sub.12-3 : HR.sub.12-4 : NO.sub.2R.sub.12-5, R.sub.12-6 : HCompound 12-(72)R.sub.12-1 : HR.sub.12-2 : ##STR1292##R.sub.12-3 : HR.sub.12-4 : CHCHNO.sub.2R.sub.12-5, R.sub.12-6 : HCompound 12-(73)R.sub.12-1 : HR.sub.12-2 : ##STR1293##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1294##Compound 12-(74)R.sub.12-1 : ##STR1295##R.sub.12-2 .about.R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(75)R.sub.12-1 : ##STR1296##R.sub.12-2 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(76)R.sub.12-1 : ##STR1297##R.sub.12-2 .about.R.sub.12-4 : HR.sub.12-5 : ##STR1298##R.sub.12-6 : HCompound 12-(77)R.sub.12-1 : ##STR1299##R.sub.12-2 : HR.sub.12-3 : ##STR1300##R.sub.12-4 .about.R.sub.12-6 : HCompound 12-(78)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : ##STR1301##R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(79)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : ##STR1302##R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(80)R.sub.12- 1, R.sub.12-2 : HR.sub.12-3 : ##STR1303##R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1304##Compound 12-(81)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : ##STR1305##R.sub.12-4 : HR.sub.12-5 : (CHCH).sub.2NO.sub.2R.sub.12-6 : HCompound 12-(82)R.sub.12-1 : ClR.sub.12-2 : HR.sub.12-3 : ##STR1306##R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1307##Compound 12-(83)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : ##STR1308##R.sub.12-4 : HR.sub.12-5 : ##STR1309##R.sub.12-6 : HCompound 12-(84)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : ##STR1310##R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(85)R.sub.12-1 : HR.sub.12-2 : CH.sub.3R.sub.12-3 : HR.sub.12-4 : ##STR1311##R.sub.12-5 : CHCHNO.sub.2R.sub.12-6 : HCompound 12-(86)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : ##STR1312##R.sub.12-6 : ##STR1313##Compound 12-(87)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : ##STR1314##R.sub.12-6 : CHCHNO.sub.2Compound 12-(88)R.sub.12-1 : HR.sub.12-2 : ##STR1315##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(89)R.sub.12-1 : HR.sub.12-2 : ##STR1316##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(90)R.sub.12-1 : HR.sub.12-2 : ##STR1317##R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : HCompound 12-(91)R.sub.12-1 : HR.sub.12-2 : ##STR1318##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1319##Compound 12-(92)R.sub.12-1 : HR.sub.12-2 : ##STR1320##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(93)R.sub.12-1 : HR.sub.12-2 : ##STR1321##R.sub.12-3 : HR.sub.12-4 : NO.sub.2R.sub.12-5, R.sub.12-6 : HCompound 12-(94)R.sub.12-1 : HR.sub.12-2 : ##STR1322##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1323##Compound 12-(95)R.sub.12-1 : ##STR1324##R.sub.12-2 .about.R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(96)R.sub.12-1 : ##STR1325##R.sub.12-2 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1326##Compound 12-(97)R.sub.12-1, R.sub.12-2 : HR.sub. 12-3 : ##STR1327##R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1328##Compound 12-(98)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : ##STR1329##R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1330##Compound 12-(99)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : ##STR1331##R.sub.12-4 : HR.sub.12-5 : ##STR1332##R.sub.12-6 : HCompound 12-(100)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : ##STR1333##R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(101)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : ##STR1334##R.sub.12-6 : NO.sub.2Compound 12-(102)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : ##STR1335##Compound 12-(103)R.sub.12-1 : HR.sub.12-2 : ##STR1336##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(104)R.sub.12-1 : HR.sub.12-2 : ##STR1337##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1338##Compound 12-(105)R.sub.12-1 : HR.sub.12-2 : ##STR1339##R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : HCompound 12-(106)R.sub.12-1 : HR.sub.12-2 : ##STR1340##R.sub.12-3, R.sub.12-4 : HR.sub.12-5 : ##STR1341##R.sub.12-6 : HCompound 12-(107)R.sub.12-1 : ##STR1342##R.sub.12-2 : HR.sub.12-3 : ##STR1343##R.sub.12-4 .about.R.sub.12-6 : HCompound 12-(108)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : ##STR1344##R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(109)R.sub.12-1 .about.R.sub.12- 4 : HR.sub.12-5 : ##STR1345##R.sub.12-6 : NO.sub.2Compound 12-(110)R.sub.12-1 .about.R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : ##STR1346##Compound 12-(111)R.sub.12-1 : CH.sub.3R.sub.12-2 : NO.sub.2R.sub.12-3 : HR.sub.12-4 : C.sub.2 H.sub.5R.sub.12-5 : HR.sub.12-6 : NO.sub.2Compound 12-(112)R.sub.12-1 : C.sub.4 H.sub.9 (t)R.sub.12-2 : HR.sub.12-3 : ##STR1347##R.sub.12-4 : HR.sub. 12-5 : CH.sub.3R.sub.12-6 : (CHCH).sub.2NO.sub.2Compound 12-(113)R.sub.12-1 : C.sub.2 H.sub.5R.sub.12-2 : HR.sub.12-3 : CHCHNO.sub.2R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : CH.sub.3Compound 12-(114)R.sub.12-1 : CH.sub.3R.sub.12-2 : ##STR1348##R.sub.12-3 : HR.sub.12-4 : C.sub.2 H.sub.5R.sub.12-5 : CH.sub.3R.sub.12-6 : NO.sub.2Compound 12-(115)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 : HR.sub.12-4 : ##STR1349##R.sub.12-5 : HR.sub.12-6 : CHCHNO.sub.2Compound 12-(116)R.sub.12-1 : NO.sub.2R.sub. 12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : CH.sub.3Compound 12-(117)R.sub.12-1 : HR.sub.12-2 : NO.sub.2R.sub.12-3 : HR.sub.12-4 : NO.sub.2R.sub.12-5 : HR.sub.12-6 : ##STR1350##Compound 12-(118)R.sub.12-1 : NO.sub.2R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4 : HR.sub.12-5 : NO.sub.2R.sub.12-6 : CHCHNO.sub.2Compound 12-(119)R.sub.12-1 : HR.sub.12-2 : ##STR1351##R.sub.12-3 .about.R.sub.12-5 : HR.sub.12-6 : ##STR1352##Compound 12-(120)R.sub.12-1, R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4, R.sub.12-5 : HR.sub.12-6 : ##STR1353##Compound 12-(121)R.sub.12-1 .about.R.sub.12-3 : HR.sub.12-4 : ##STR1354##R.sub.12-5 : HR.sub.12-6 : ##STR1355##Compound 12-(122)R.sub.12-1 : ##STR1356##R.sub.12-2 : HR.sub.12-3 : NO.sub.2R.sub.12-4 : HR.sub.12-5 : ##STR1357##R.sub.12-6 : HCompound 12-(123)R.sub.12-1 : HR.sub.12-2 : ##STR1358##R.sub.12-3 : HR.sub.12-4 : ##STR1359##R.sub.12-5 : ##STR1360##R.sub.12-6 : NO.sub.2Compound 12-(124)R.sub.12-1 : HR.sub.12-2 : ##STR1361##R.sub.12-3 : HR.sub.12-4 : NO.sub.2R.sub.12-5 : NO.sub.2R.sub.12-6 : C.sub.2 H.sub.5Compound 12-(125)R.sub.12-1 : HR.sub.12-2 : ##STR1362##R.sub.12-3 : HR.sub.12-4 : ##STR1363##R.sub.12-5, R.sub.12-6 : H______________________________________
______________________________________Basic constitution (Formula (13)) ##STR1364##______________________________________Compound 13-(1)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : NO.sub.2Compound 13-(2)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : CHCHNO.sub.2Compound 13-(3)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1365##Compound 13-(4)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1366##Compound 13-(5)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1367##Compound 13-(6)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1368##Compound 13-(7)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1369##Compound 13-(8)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1370##Compound 13-(9)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1371##Compound 13-(10)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1372##Compound 13-(11)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1373##Compound 13-(12)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : CHCHNO.sub.2Compound 13-(13)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1374##Compound 13-(14)R.sub.13-1 : (CHCH).sub.2NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1375##Compound 13-(15)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1376##Compound 13-(16)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1377##Compound 13-(17)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1378##Compound 13-(18)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1379##Compound 13-(19)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1380##Compound 13-(20)R.sub.13-1 : ##STR1381##R.sub.13- 2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1382##Compound 13-(21)R.sub.13-1 : ##STR1383##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1384##Compound 13-(22)R.sub.13-1 : ##STR1385##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1386##Compound 13-(23)R.sub.13-1 : ##STR1387##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1388##Compound 13-(24)R.sub.13-1 : ##STR1389##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1390##Compound 13-(25)R.sub.13-1 : ##STR1391##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1392##Compound 13-(26)R.sub.13-1 : ##STR1393##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1394##Compound 13-(27)R.sub.13-1 : ##STR1395##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1396##Compound 13-(28)R.sub.13-1 : ##STR1397##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1398##Compound 13-(29)R.sub.13-1 : ##STR1399##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1400##Compound 13-(30)R.sub.13-1 : ##STR1401##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1402##Compound 13-(31)R.sub.13-1 : ##STR1403##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1404##Compound 13-(32)R.sub.13-1 : ##STR1405##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1406##Compound 13-(33)R.sub.13- 1 : ##STR1407##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1408##Compound 13-(34)R.sub.13-1 : ##STR1409##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1410##Compound 13-(35)R.sub.13-1 : ##STR1411##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1412##Compound 13-(36)R.sub.13-1 : ##STR1413##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1414##Compound 13-(37)R.sub.13-1 : ##STR1415##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1416##Compound 13-(38)R.sub.13-1 : ##STR1417##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1418##Compound 13-(39)R.sub.13-1 : ##STR1419##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1420##Compound 13-(40)R.sub.13-1 : ##STR1421##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1422##Compound 13-(41)R.sub.13-1 : NO.sub.2R.sub.13-2 : ClR.sub.13-3 : HR.sub.13-4 : ##STR1423##Compound 13-(42)R.sub.13-1 : NO.sub.2R.sub.13-2 : ClR.sub.13-3 : HR.sub.13-4 : ##STR1424##Compound 13-(43)R.sub.13-1 : ##STR1425##R.sub.13-2 : ClR.sub.13-3 : HR.sub.13-4 : ##STR1426##Compound 13-(44)R.sub.13-1 : ##STR1427##R.sub.13-2 : BrR.sub.13-3 : HR.sub.13-4 : ##STR1428##Compound 13-(45)R.sub.13-1 : ##STR1429##R.sub.13-2 : BrR.sub.13-3 : HR.sub.13-4 : ##STR1430##Compound 13-(46)R.sub.13-1 : NO.sub.2R.sub.13-2 : ClR.sub.13-3 : ClR.sub.13-4 : ##STR1431##Compound 13-(47)R.sub.13-1 : NO.sub.2R.sub.13-2 : ClR.sub.13-3 : ClR.sub.13-4 : ##STR1432##Compound 13-(48)R.sub. 13-1 : ##STR1433##R.sub.13-2 : C.sub.2 H.sub.5R.sub.13-3 : HR.sub.13-4 : ##STR1434##Compound 13-(49)R.sub.13-1 : ##STR1435##R.sub.13-2 : CH.sub.3R.sub.13-3 : CH.sub.3R.sub.13-4 : ##STR1436##Compound 13-(50)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : C.sub.4 H.sub.9 (t)R.sub.13-3 : HR.sub.13-4 : CHCHNO.sub.2Compound 13-(51)R.sub.13-1 : ##STR1437##R.sub.13-2 : NO.sub.2R.sub.13-3 : HR.sub.13-4 : ##STR1438##Compound 13-(52)R.sub.13-1 : ##STR1439##R.sub.13-2 : CH.sub.2R.sub.13-3 : HR.sub.13-4 : ##STR1440##Compound 13-(53)R.sub.13-1 : ##STR1441##R.sub.13-2 : CH.sub.2R.sub.13-3 : CH.sub.2R.sub.13-4 : ##STR1442##Compound 13-(54)R.sub.13-1 : HR.sub.13-2 : ##STR1443##R.sub.13-3 : HR.sub.13-4 : ##STR1444##Compound 13-(55)R.sub.13-1 : NO.sub.2R.sub.13-2 : ##STR1445##R.sub.13-3 : HR.sub.13-4 : ##STR1446##Compound 13-(56)R.sub.13-1 : ##STR1447##R.sub.13-2 ##STR1448##R.sub.13-3 : CH.sub.3R.sub.13-4 : ##STR1449##Compound 13-(57)R.sub.13-1 : ##STR1450##R.sub.13-2 : ##STR1451##R.sub.13-3 : ClR.sub.13-4 : ##STR1452##Compound 13-(58)R.sub.13-1 : ##STR1453##R.sub.13-2 : ##STR1454##R.sub.13-3 : HR.sub.13-4 : HCompound 13-(59)R.sub.13-1 : NO.sub.2R.sub.13-2 : ##STR1455##R.sub.13-3 : HR.sub.13-4 : HCompound 13-(60)R.sub.13-1 : NO.sub.2R.sub.13-2 : ##STR1456##R.sub.13-3 : HR.sub.13-4 : HCompound 13-(61)R.sub.13-1 : ##STR1457##R.sub.13-2 : ##STR1458##R.sub.13-3 : HR.sub.13-4 : HCompound 13-(62)R.sub.13-1 : HR.sub.13-2 : NO.sub.2R.sub.13-3 : CHCHNO.sub.2R.sub.13-4 : HCompound 13-(63)R.sub.13-1 : HR.sub.13-2 : ##STR1459##R.sub.13-3 : ##STR1460##R.sub.13-4 : HCompound 13-(64)R.sub.13-1 : HR.sub.13-2 : NO.sub.2R.sub.13-3 : ##STR1461##R.sub.13-4 : HCompound 13-(65)R.sub.13-1 : HR.sub.13-2 : ##STR1462##R.sub.13-3 : ##STR1463##R.sub.13-4 : HCompound 13-(66)R.sub.13-1 : NO.sub.2R.sub.13-2 : CHCHNO.sub.2R.sub.13-3 : HR.sub.13-4 : ##STR1464##Compound 13-(67)R.sub.13-1 : ##STR1465##R.sub.13-2 : NO.sub.2R.sub.13-3 : HR.sub.13-4 : ##STR1466##Compound 13-(68)R.sub.13-1 : ##STR1467##R.sub.13-2 : CHCHNO.sub.2R.sub.13-3 : HR.sub.13-4 : ##STR1468##Compound 13-(69)R.sub.13-1 : ##STR1469##R.sub.13-2 : ##STR1470##R.sub.13-3 : HR.sub.13-4 : NO.sub.2Compound 13-(70)R.sub.13-1 : NO.sub.2R.sub.13-2 : ##STR1471##R.sub.13-3 : ##STR1472##R.sub.13-4 : NO.sub.2Compound 13-(71)R.sub.13-1 : ##STR1473##R.sub.13-2 : ##STR1474##R.sub.13-3 : ##STR1475##R.sub.13-4 : ##STR1476##Compound 13-(72)R.sub.13-1 : HR.sub.13-2 : NO.sub.2R.sub.13-3 : HR.sub.13-4 : ##STR1477##Compound 13-(73)R.sub.13-1 : HR.sub.13-2 : ##STR1478##R.sub.13-3 : HR.sub.13-4 : ##STR1479##Compound 13-(74)R.sub.13-1 : HR.sub.13-2 : ##STR1480##R.sub.13-3 : HR.sub.13-4 : NO.sub.2Compound 13-(75)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1481##Compound 13-(76)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1482##Compound 13-(77)R.sub.13-1 : ##STR1483##R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1484##Compound 13-(78)R.sub.13-1 : CHCHNO.sub.2R.sub.13-2 : HR.sub.13-3 : HR.sub.13-4 : ##STR1485##Compound 13-(79)R.sub.13-1 : CH.sub.3R.sub.13-2 : ##STR1486##R.sub.13-3 : ##STR1487##R.sub.13-4 : CH.sub.3Compound 13-(80)R.sub.13-1 : C.sub.2 H.sub.5R.sub.13-2 : ##STR1488##R.sub.13-3 : ##STR1489##R.sub.13-4 : C.sub.2 H.sub.5Compound 13-(81)R.sub.13-1 : ##STR1490##R.sub.13-2 : ##STR1491##R.sub.13-3 : ##STR1492##R.sub.13-4 : ##STR1493##Compound 13-(82)R.sub.13-1 : ##STR1494##R.sub.13-2 : ##STR1495##R.sub.13-3 : ##STR1496##R.sub.13-4 : ##STR1497##Compound 13-(83)R.sub.13-1 : ##STR1498##R.sub.13-2 : ##STR1499##R.sub.13-3 : ##STR1500##R.sub.13-4 : ##STR1501##Compound 13-(84)R.sub.13-1 : NO.sub.2R.sub.13-2 : HR.sub.13-3 : ##STR1502##R.sub.13-4 : H______________________________________
______________________________________Basic constitution(Formula 14) ##STR1503##______________________________________Compound 14-(1)R.sub.14-1: CHCHNO.sub.2R.sub.14-2: HR.sub.14-3: HR.sub.14-4: CHCHNO.sub.2k: 1Compound 14-(2)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1504##k: 1Compound 14-(3)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1505##k 1Compound 14-(4)R.sub.14-1 : CHCHNO.sub. 2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : (CHCH).sub.2 NO.sub.2k: 1Compound 14-(5)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1506##k: 1Compound 14(6)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1507##k: 1Compound 14-(7)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1508##k: 1Compound 14-(8)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1509##k: 1Compound 14-(9)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1510##k: 1Compound 14-(10)R.sub.14-1: CHCHNO.sub.2R.sub.14-2: HR.sub.14-3: HR.sub.14-4: ##STR1511##k: 1Compound 14-(11)R.sub.14-1: CHCHNO.sub.2R.sub.14-2: HR.sub.14-3: HR.sub.14-4: ##STR1512##k: 1Compound 14-(12)R.sub.14-1: CHCHNO.sub.2R.sub.14-2: HR.sub.14-3: HR.sub.14-4: ##STR1513##k: 1Compound 14-(13)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1514##k: 1Compound 14-(14)R.sub.14-1 : (CHCH).sub.2NO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : (CHCH).sub.2NO.sub.2k: 1Compound 14-(15)R.sub.14-1 : (CHCH).sub.2NO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1515##k 1Compound 14-(16)R.sub.14-1 : (CHCH).sub.2NO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1516##k 1Compound 14-(17)R.sub.14-1 : (CHCH).sub.2NO.sub.2R.sub.14-2 : HR.sub.l4-3 : HR.sub.14-4 : ##STR1517##k 1Compound 14-(18)R.sub.14-1 : (CHCH).sub.2NO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1518##k 2Compound 14-(19)R.sub.14-1 : (CHCH).sub.2NO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1519##k 1Compound 14-(20)R.sub.14-1 : ##STR1520##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1521##k: 1Compound 14-(21)R.sub.14-1 : ##STR1522##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1523##k: 1Compound 14-(22)R.sub.14-1 : ##STR1524##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1525##k: 1Compound 14-(23)R.sub.14-1 : ##STR1526##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1527##k: 1Compound 14-(24)R.sub.14-1 : ##STR1528##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1529##k: 2Compound 14-(25)R.sub.14-1 : ##STR1530##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1531##k: 1Compound 14-(26)R.sub.14-1 : ##STR1532##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1533##k: 1Compound 14-(27)R.sub.14-1 : ##STR1534##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1535##k: 1Compound 14-(28)R.sub.14-1 : ##STR1536##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1537##k: 1Compound 14-(29)R.sub.14-1 : ##STR1538##R.sub.14-2 : HR.sub.14-3 : ##STR1539##R.sub.14-4 : ##STR1540##k: 1Compound 14-(30)R.sub.14-1 : ##STR1541##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1542##k: 1Compound 14-(31)R.sub.14-1 : ##STR1543##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1544##k: 1Compound 14-(32)R.sub.14-1 : ##STR1545##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1546##k: 1Compound 14-(33)R.sub.14-1 : ##STR1547##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1548##k: 2Compound 14-(34)R.sub.14-1 : ##STR1549##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1550##k: 1Compound 14-(35)R.sub.14-1 : ##STR1551##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1552##k: 1Compound 14-(36)R.sub.14-1 : ##STR1553##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1554##k: 1Compound 14-(37)R.sub.14-1 : ##STR1555##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1556##k: 1Compound 14-(38)R.sub.14-1 : ##STR1557##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1558##k: 1Compound 14-(39)R.sub.14-1 : ##STR1559##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1560##k: 2Compound 14-(40)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : CHCHNO.sub.2k: 2Compound 14-(41)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : ClR.sub.14-3 : HR.sub.14-4 : CHCHNO.sub.2k: 2Compound 14-(42)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : BrR.sub.14-3 : HR.sub.14-4 : ##STR1561##k: 1Compound 14-(43)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : ClR.sub.14-3 : ClR.sub.14-4 : ##STR1562##k: 1Compound 14-(44)R.sub.14-1 : ##STR1563##R.sub.14-2 : BrR.sub.14-3 : HR.sub.14-4 : ##STR1564##k: 1Compound 14-(45)R.sub.14-1 : ##STR1565##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1566##k: 1Compound 14-(46)R.sub.14-1 : ##STR1567##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1568##k: 1Compound 14-(47)R.sub.14-1 : ##STR1569##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1570##k: 1Compound 14-(48)R.sub.14-1 : ##STR1571##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1572##k: 1Compound 14-(49)R.sub.14-1 : ##STR1573##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1574##k: 1Compound 14-(50)R.sub.14-1 : ##STR1575##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1576##k: 1Compound 14-(51)14-1: ##STR1577##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1578##k: 1Compound 14-(52)R.sub.14-1 : ##STR1579##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1580##k: 2Compound 14-(53)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : CH.sub.3R.sub.14-3 : HR.sub.14-4 : ##STR1581##k: 1Compound 14-(54)R.sub.14-1 : ##STR1582##R.sub.14-2 : C.sub.2 H.sub.5R.sub.14-3 : HR.sub.14-4 : ##STR1583##k: 1Compound 14-(55)R.sub.14-1 : ##STR1584##R.sub.14-2 : C.sub.4 H.sub.9 (t)R.sub.14-3 : HR.sub.14-4 : ##STR1585##k: 1Compound 14-(56)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : CH.sub.3R.sub.14-3 : CH.sub.3R.sub.14-4 : ##STR1586##k: 1Compound 14-(57)R.sub.14-1 : ##STR1587##R.sub.14-2 : C.sub.4 H.sub.9 (t)R.sub.14-3 : CH.sub.3R.sub.14-4 : ##STR1588##k: 1Compound 14-(58)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : HR.sub.14-4 : ##STR1589##k: 1Compound 14-(59)R.sub.14-1 : ##STR1590##R.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : HR.sub.14-4 : ##STR1591##k: 1Compound 14-(60)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : ##STR1592##R.sub.14-3 : CH.sub.3R.sub.14-4 : ##STR1593##k: 1Compound 14-(61)R.sub.14-1 : ##STR1594##R.sub.14-2 : CH.sub.2R.sub.14-3 : HR.sub.14-1 : ##STR1595##k: 1Compound 14-(62)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : ##STR1596##R.sub.14-3 : ##STR1597##R.sub.14-4 : (CHCH).sub.2NO.sub.2k: 1Compound 14-(63)R.sub.14-1 : ##STR1598##R.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : HR.sub.14-4 : C.sub.4 H.sub.9 (t)k: 1Compound 14-(64)R.sub.14-1 : ##STR1599##R.sub.14-2 : HR.sub.14-3 : ##STR1600##R.sub.14-4 : Hk: 1Compound 14-(65)R.sub.14-1 : ##STR1601##R.sub.14-2 : (CHCH).sub.2NO.sub.2R.sub.14-3 : CH.sub.3R.sub.14-4 : Hk: 1Compound 14-(66)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : ##STR1602##R.sub.14-3 : HR.sub.14-4 : Hk: 2Compound 14-(67)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : ##STR1603##R.sub.14-3 : HR.sub.14-4 : Hk: 1Compound 14-(68)R.sub.14-1 : ##STR1604##R.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : C.sub.4 H.sub.9 (t)R.sub.14-4 : Hk: 1Compound 14-(69)R.sub.14-1 : ##STR1605##R.sub.14-2 : HR.sub.14-3 : CHCHNO.sub.2R.sub.14-4 : CH.sub.3k: 1Compound 14-(70)R.sub.14-1 : HR.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : CHCHNO.sub.2R.sub.14-4 : Hk: 1Compound 14-(71)R.sub.14-1 : HR.sub.14-2 : ##STR1606##R.sub.14-3 : ##STR1607##R.sub.14-4 : Hk: 1Compound 14-(72)R.sub.14-1 : HR.sub.14-2 : CHCH NO.sub.2R.sub.14-3 : ##STR1608##R.sub.14-4 : Hk: 1Compound 14-(73)R.sub.14-1 : HR.sub.14-2 : (CHCH).sub.2NO.sub.2R.sub.14-3 : ##STR1609##R.sub.14-4 : Hk: 1Compound 14-(74)R.sub.14-1 : CH.sub.3R.sub.14-2 : ##STR1610##R.sub.14-3 : (CHCH).sub.2NO.sub.2R.sub.14-4 : CH.sub.3k: 1Compound 14-(75)R.sub.14-1 : ##STR1611##R.sub.14-2 : ##STR1612##R.sub.14-3 : CHCHNO.sub.2R.sub.14-4 : CHCHNO.sub.2k: 1Compound 14-(76)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : CH.sub.3R.sub.14-3 : HR.sub.14-4 : ##STR1613##k: 1Compound 14-(77)R.sub.14-1 : ##STR1614##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1615##k: 1Compound 14-(78)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1616##k: 1Compound 14-(79)R.sub.14-1 : ##STR1617##R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1618##k: 1Compound 14-(80)R.sub.14-1 : ##STR1619##R.sub.14-2 : HR.sub.14-3 : CHCHNO.sub.2R.sub.14-4 : Hk: 1Compound 14-(81)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : CH.sub.3R.sub.14-3 : ##STR1620##R.sub.14-4 : Hk: 1Compound 14-(82)R.sub.14-1 : C.sub.4 H.sub.9 (t)R.sub.14-2 : (CHCH).sub.2NO.sub.2R.sub.14-3 : ##STR1621##R.sub.14-4 : Hk: 1Compound 14-(83)R.sub.14-1 : C.sub.4 H.sub.9 (t)R.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : ##STR1622##R.sub.14-4 : Hk: 1Compound 14-(84)R.sub.14-1 : ##STR1623##R.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : CHCHNO.sub.2R.sub.14-4 : ##STR1624##k: 1Compound 14-(85)R.sub.14-1 : ##STR1625##R.sub.14-2 : CHCHNO.sub.2R.sub.14-3 : ##STR1626##R.sub.14-4 : ##STR1627##k: 1Compound 14-(86)R.sub.14-1 : ##STR1628##R.sub.14-2 : ##STR1629##R.sub.14-3 : ##STR1630##R.sub.14-4 : ##STR1631##k: 1Compound 14-(87)R.sub.14-1 : ##STR1632##R.sub.14-2 : HR.sub. 14-3 : CHCHNO.sub.2R.sub.14-4 : C.sub.2 H.sub.5k: 1Compound 14-(88)R.sub.14-1 : ##STR1633##R.sub.14-2 : HR.sub.14-3 : ##STR1634##R.sub.14-4 : Hk: 1Compound 14-(89)R.sub.14-1 : CHCHNO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : CHCHNO.sub.2k: 2Compound 14-(90)R.sub.14-1 : ##STR1635##R.sub.14-2 : HR.sub.14-3 : CH.sub.3R.sub.14-4 : ##STR1636##k: 2Compound 14-(91)R.sub.14-1 : (CHCH).sub. 2NO.sub.2R.sub.14-2 : HR.sub.14-3 : HR.sub.14-4 : ##STR1637##k: 2______________________________________
______________________________________Basic constitution(Formula 15) ##STR1638##Compound 15-(1)R.sub.15-1 : ##STR1639##R.sub.15-2 : ##STR1640##R.sub.15-3 : ##STR1641##X: CH.sub.2 CH.sub.2Compound 15-(2)R.sub.15-1 : ##STR1642##R.sub.15-2 : ##STR1643##R.sub.15-3 : ##STR1644##X: CH.sub.2 CH.sub.2Compound 15-(3)R.sub.15-1 : ##STR1645##R.sub.15-2 : ##STR1646##R.sub.15-3 : ##STR1647##X: CH.sub.2 CH.sub.2Compound 15-(4)R.sub.15-1 : ##STR1648##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1649##X: CH.sub.2 CH.sub.2Compound 15-(5)R.sub.15-1 : ##STR1650##R.sub.15-2 : ##STR1651##R.sub.15-3 : ##STR1652##X: CH.sub.2 CH.sub.2Compound 15-(6)R.sub.15-1 : ##STR1653##R.sub.15-2 : ##STR1654##R.sub.15-3 : CHCHNO.sub. 2X: CH.sub.2 CH.sub.2Compound 15-(7)R.sub.15-1 : ##STR1655##R.sub.15-2 : ##STR1656##R.sub.15-3 : ##STR1657##X: CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(8)R.sub.15-1 : ##STR1658##R.sub.15-2 : ##STR1659##R.sub.15-3 : ##STR1660##X: CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(9)R.sub.15-1 : ##STR1661##R.sub.15-2 : ##STR1662##R.sub.15-3 : ##STR1663##X: CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(10)R.sub.15-1 : ##STR1664##R.sub.15-2 : ##STR1665##R.sub.15-3 : ##STR1666##X: CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(11)R.sub.15-1 : ##STR1667##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1668##X: CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(12)R.sub.15-1 : ##STR1669##R.sub.15-2 : ##STR1670##R.sub.15-3 : ##STR1671##X: CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(13)R.sub.15-1 : ##STR1672##R.sub.15-2 : ##STR1673##R.sub.15-3 : ##STR1674##X: CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(14)R.sub.15-1 : ##STR1675##R.sub.15-2 : ##STR1676##R.sub.15-3 : ##STR1677##X: ##STR1678##Compound 15-(15)R.sub.15-1 : ##STR1679##R.sub.15-2 : ##STR1680##R.sub.15-3 : CHCHNO.sub.2X: ##STR1681##Compound 15-(16)R.sub.15-1 : ##STR1682##R.sub.15-2 : ##STR1683##R.sub.15-3 : ##STR1684##X: ##STR1685##Compound 15-(17)R.sub.15-1 : ##STR1686##R.sub.15-2 : ##STR1687##R.sub.15-3 : ##STR1688##X: ##STR1689##Compound 15-(18)R.sub.15-1 : ##STR1690##R.sub.15-2 : ##STR1691##R.sub.15-3 : ##STR1692##X: ##STR1693##Compound 15-(19)R.sub.15-1 : ##STR1694##R.sub.15-2 : ##STR1695##R.sub.15-3 : ##STR1696##X: ##STR1697##Compound 15-(20)R.sub.15-1 : ##STR1698##R.sub.15-2 : ##STR1699##R.sub.15-3 : ##STR1700##X: ##STR1701##Compound 15-(21)R.sub.15-1 : ##STR1702##R.sub.15-2 : ##STR1703##R.sub.15-3 : ##STR1704##X: ##STR1705##Compound 15-(22)R.sub.15-1 : O.sub.2 NCHCHR.sub.15-2 : ##STR1706##R.sub.15-3 : CHCHNO.sub.2X: ##STR1707##Compound 15-(23)R.sub.15-1 : ##STR1708##R.sub.15-2 : ##STR1709##R.sub.15-3 : ##STR1710##X: ##STR1711##Compound 15-(24)R.sub.15-1 : ##STR1712##R.sub.15-2 : ##STR1713##R.sub.15-3 : ##STR1714##X: ##STR1715## Compound 15-(25)R.sub.15-1 : ##STR1716##R.sub.15-2 : ##STR1717##R.sub.15-3 : ##STR1718##X: ##STR1719##Compound 15-(26)R.sub.15-1 : ##STR1720##R.sub.15-2 : ##STR1721##R.sub.15-3 : ##STR1722##X: ##STR1723##Compound 15-(27)R.sub.15-1 : ##STR1724##R.sub.15-2 : ##STR1725##R.sub.15-3 : ##STR1726##X: ##STR1727##Compound 15-(28)R.sub.15-1 : ##STR1728##R.sub.15-2 : ##STR1729##R.sub.15-3 : ##STR1730##X: ##STR1731##Compound 15-(29)R.sub.15-1 : ##STR1732##R.sub.15-2 : ##STR1733##R.sub.15-3 : ##STR1734##X: ##STR1735##Compound 15-(30)R.sub.15-1 : ##STR1736##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1737##X: ##STR1738##Compound 15-(31)R.sub.15-1 : ##STR1739##R.sub.15-2 : ##STR1740##R.sub.15-3 : ##STR1741##X: ##STR1742##Compound 15-(32)R.sub.15-1 : ##STR1743##R.sub.15-2 : ##STR1744##R.sub.15-3 : CHCHNO.sub.2X: ##STR1745##Compound 15-(33)R.sub.15-1 : ##STR1746##R.sub.15-2 : ##STR1747##R.sub.15-1 : ##STR1748##X: ##STR1749##Compound 15-(34)R.sub.15-1 : ##STR1750##R.sub.15-2 : ##STR1751##R.sub.15-3 : ##STR1752##X: ##STR1753##Compound 15-(35)R.sub.15-1 : ##STR1754##R.sub.15-2 : ##STR1755##R.sub.15-3 : ##STR1756##X: ##STR1757##Compound 15-(36)R.sub.15-1 : ##STR1758##R.sub.15-2 : ##STR1759##R.sub.15-3 : ##STR1760##X: ##STR1761##Compound 15-(37)R.sub.15-1 : ##STR1762##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1763##X: ##STR1764##Compound 15-(38)R.sub.15-1 : ##STR1765##R.sub.15-2 : ##STR1766##R.sub.15-3 : ##STR1767##X: ##STR1768##Compound 15-(39)R.sub.15-1 : ##STR1769##R.sub.15-2 : ##STR1770##R.sub.15-3 : ##STR1771##X: ##STR1772##Compound 15-(40)R.sub.15-1 : ##STR1773##R.sub.15-2 : ##STR1774##R.sub.15-3 : ##STR1775##X: ##STR1776##Compound 15-(41)R.sub.15-1 : ##STR1777##R.sub.15-2 : ##STR1778##R.sub.15-3 : CHCHNO.sub.2X: ##STR1779##Compound 15-(42)R.sub.15-1 : ##STR1780##R.sub.15-2 : ##STR1781##R.sub.15-3 : ##STR1782##X: ##STR1783##Compound 15-(43)R.sub.15-1 : ##STR1784##R.sub.15-2 : ##STR1785##R.sub.15-3 : ##STR1786##X: ##STR1787##Compound 15-(44)R.sub.15-1 : ##STR1788##R.sub.15-2 : ##STR1789##R.sub.15-3 : ##STR1790##X: ##STR1791##Compound 15-(45)R.sub.15-1 : ##STR1792##R.sub.15-2 : ##STR1793##R.sub.15-3 : ##STR1794##X: ##STR1795##Compound 15-(46)R.sub.15-1 : ##STR1796##R.sub.15-2 : ##STR1797##R.sub.15-3 : ##STR1798##X: ##STR1799##Compound 15-(47)R.sub.15-1 : ##STR1800##R.sub.15-2 : ##STR1801##R.sub.15-3 : ##STR1802##X: ##STR1803##Compound 15-(48)R.sub.15-1 : O.sub.2 NCHCHR.sub.15-2 : ##STR1804##R.sub.15-3 : CHCHNO.sub.2X: ##STR1805##Compound 5-(49)R.sub.15-1 : ##STR1806##R.sub.15-2 : ##STR1807##R.sub.15-3 : ##STR1808##X: ##STR1809##Compound 15-(50)R.sub.15-1 : ##STR1810##R.sub.15-2 : ##STR1811##R.sub.15-3 : ##STR1812##X: ##STR1813##Compound 15-(51)R.sub.15-1 : ##STR1814##R.sub.15-2 : ##STR1815##R.sub.15-3 : ##STR1816##X: ##STR1817##Compound 15-(52)R.sub.15-1 : ##STR1818##R.sub.15-2 : ##STR1819##R.sub.15-3 : ##STR1820##X: ##STR1821##Compound 15-(53)R.sub.15-1 : ##STR1822##R.sub.15-2 : ##STR1823##R.sub.15-3 : ##STR1824##X: ##STR1825##Compound 15-(54)R.sub.15-1 : ##STR1826##R.sub.15-2 : ##STR1827##R.sub.15-3 : ##STR1828##X: ##STR1829##Compound 15-(55)R.sub.15-1 : ##STR1830##R.sub.15-2 : ##STR1831##R.sub.15-3 : ##STR1832##X: ##STR1833##Compound 15-(56)R.sub.15-1 : ##STR1834##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1835##X: ##STR1836##Compound 15-(57)R.sub.15-1 : ##STR1837##R.sub.15-2 : ##STR1838##R.sub.15-3 : ##STR1839##X: ##STR1840##Compound 15-(58)R.sub.15-1 : ##STR1841##R.sub. 15-2 : ##STR1842##R.sub.15-3 : CHCHNO.sub.2X: ##STR1843##Compound 15-(59)R.sub.15-1 : ##STR1844##R.sub.15-2 : ##STR1845##R.sub.15-3 : ##STR1846##X: ##STR1847##Compound 15-(60)R.sub.15-1 : ##STR1848##R.sub.15-2 : ##STR1849##R.sub.15-3 : ##STR1850##X: ##STR1851##Compound 15-(61)R.sub.15-1 : ##STR1852##R.sub.15-2 : ##STR1853##R.sub.15-3 : ##STR1854##X: ##STR1855##Compound 15-(62)R.sub.15-1 : ##STR1856##R.sub.15-2 : ##STR1857##R.sub.15-3 : ##STR1858##X: ##STR1859##Compound 15-(63)R.sub.15-1 : ##STR1860##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1861##X: ##STR1862##Compound 15-(64)R.sub.15-1 : ##STR1863##R.sub.15-2 : ##STR1864##R.sub.15-3 : ##STR1865##X: ##STR1866##Compound 15-(65)R.sub.15-1 : ##STR1867##R.sub.15-2 : ##STR1868##R.sub.15-3 : ##STR1869##X: ##STR1870##Compound 15-(66)R.sub.15-1 : ##STR1871##R.sub.15-2 : ##STR1872##R.sub.15-3 : ##STR1873##X: CH.sub.2 CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(67)R.sub.15-1 : ##STR1874##R.sub.15-2 : ##STR1875##R.sub.15-3 : CHCHNO.sub.2X: CH.sub.2 CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(68)R.sub.15-1 : ##STR1876##R.sub.15-2 : ##STR1877##R.sub.15-3 : ##STR1878##X: CH.sub.2 CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(69)R.sub.15-1 : ##STR1879##R.sub. 15-2 : ##STR1880##R.sub.15-3 : ##STR1881##X: CH.sub.2 CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(70)R.sub.15-1 : ##STR1882##R.sub.15-2 : ##STR1883##R.sub.15-3 : ##STR1884##X: CH.sub.2 CH.sub.2 CH.sub.2 CH.sub.2Compound 15-(71)R.sub.15-1 : ##STR1885##R.sub.15-2 : ##STR1886##R.sub.15-3 : ##STR1887##X: CH.sub.2 CH.sub. 2 CH.sub.2 CH.sub.2Compound 15-(72)R.sub.15-1 : ##STR1888##R.sub.15-2 : ##STR1889##R.sub.15-3 : ##STR1890##X: CH.sub.2Compound 15-(73)R.sub.15-1 : ##STR1891##R.sub.15-2 : ##STR1892##R.sub.15-3 : ##STR1893##X: CH.sub.2Compound 15-(74)R.sub.15-1 : O.sub.2 NCHCHR.sub.15-2 : ##STR1894##R.sub.15-3 : CHCHNO.sub.2X: CH.sub.2Compound 15-(75)R.sub.15-1 : ##STR1895##R.sub.15-2 : ##STR1896##R.sub.15-3 : ##STR1897##X: CH.sub.2Compound 15-(76)R.sub.15-1 : ##STR1898##R.sub.15-2 : ##STR1899##R.sub.15-3 : ##STR1900##X: CH.sub.2Compound 15-(77)R.sub.15-1 : ##STR1901##R.sub.15-2 : ##STR1902##R.sub.15-3 : ##STR1903##X: CH.sub.2Compound 15-(78)R.sub.15-1 : ##STR1904##R.sub.15-2 : ##STR1905##R.sub.15-3 : ##STR1906##X: CH.sub.2Compound 15-(79)R.sub.15-1 : ##STR1907##R.sub.15-2 : ##STR1908##R.sub.15-3 : ##STR1909##X: ##STR1910##Compound 15-(80)R.sub.15-1 : ##STR1911##R.sub.15-2 : ##STR1912##R.sub.15-3 : ##STR1913##X: ##STR1914##Compound 15-(81)R.sub.15-1 : ##STR1915##R.sub.15-2 : ##STR1916##R.sub.15-3 : ##STR1917##X: ##STR1918##Compound 15-(82)R.sub.15-1 : ##STR1919##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1920##X: ##STR1921##Compound 15-(83)R.sub.15-1 : ##STR1922##R.sub.15-2 : ##STR1923##R.sub.15-3 : ##STR1924##X: ##STR1925##Compound 15-(84)R.sub.15-1 : ##STR1926##R.sub.15-2 : ##STR1927##R.sub.15-3 : CHCHNO.sub.2X: ##STR1928##Compound 15-(85)R.sub.15-1 : ##STR1929##R.sub.15-2 : ##STR1930##R.sub.15-3 : ##STR1931##X: ##STR1932##Compound 15-(86)R.sub.15-1 : ##STR1933##R.sub.15-2 : ##STR1934##R.sub.15-3 : ##STR1935##X: ##STR1936##Compound 15-(87)R.sub.15-1 : ##STR1937##R.sub.15-2 : ##STR1938##R.sub.15-3 : ##STR1939##X: ##STR1940##Compound 15-(88)R.sub.15-1 : ##STR1941##R.sub.15-2 : ##STR1942##R.sub.15-3 : ##STR1943##X: ##STR1944##Compound 15-(89)R.sub.15-1 : ##STR1945##R.sub.15-2 : CHCHNO.sub.2R.sub.15-3 : ##STR1946##X: ##STR1947##Compound 15-(90)R.sub.15-1 : ##STR1948##R.sub.15-2 : ##STR1949##R.sub.15-3 : ##STR1950##X: ##STR1951##Compound 15-(91)R.sub.15-1 : ##STR1952##R.sub.15-2 : ##STR1953##R.sub.15-3 : ##STR1954##X: ##STR1955##______________________________________
______________________________________Basic Constitution (Formula 16) ##STR1956##______________________________________Compound 16-(1)R.sub.16-1: ##STR1957##R.sub.16-2: ##STR1958##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(2)R.sub.16-1 : ##STR1959##R.sub.16-2 : ##STR1960##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(3)R.sub.16-1 : ##STR1961##R.sub.16-2 : ##STR1962##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(4)R.sub.16-1 : ##STR1963##R.sub.16-2 : ##STR1964##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(5)R.sub.16-1 : ##STR1965##R.sub.16-2 : ##STR1966##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(6)R.sub.16-2 : ##STR1967##R.sub.16-2 : ##STR1968##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(7)R.sub.16-1 ##STR1969##R.sub.16-2 ##STR1970##R.sub.16-3 HR.sub.16-4 HX Oxygen atomCompound 16-(8)R.sub.16-1 : ##STR1971##R.sub.16-2 : CH.sub.3R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(9)R.sub. 16-1 : ##STR1972##R.sub.16-2 : ##STR1973##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(10)R.sub.16-1 : ##STR1974##R.sub.16-2 : ##STR1975##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(11)R.sub.16-1 : ##STR1976##R.sub.16-2 : ##STR1977##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(12)R.sub.16-1 : ##STR1978##R.sub.16-2 : ##STR1979##R.sub.16-3 : ##STR1980##R.sub.16-4 : ##STR1981##X: Oxygen atomCompound 16-(13)R.sub.16-1 : ##STR1982##R.sub.16-2 : ##STR1983##R.sub.16-3 : HR.sub.16-4 : HX: Oxygen atomCompound 16-(14)R.sub.16-1 : ##STR1984##R.sub.16-2 : ##STR1985##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: Oxygen atomCompound 16-(15)R.sub.16-1 : ##STR1986##R.sub.16-2 : ##STR1987##R.sub.16-3 : C.sub.2 H.sub.5R.sub.16-4 : C.sub.2 H.sub.5X: Oxygen atomCompound 16-(16)R.sub.16-1 : ##STR1988##R.sub.16-2 : ##STR1989##R.sub.16-3 : CH.sub.3R.sub.16-4 : HX: Oxygen atomCompound 16-(17)R.sub.16-1 : ##STR1990##R.sub.16-2 : ##STR1991##R.sub.16-3 : ##STR1992##R.sub.16-4 : ##STR1993##X: Oxygen atomCompound 16-(18)R.sub.16-1 : ##STR1994##R.sub.16-2 : ##STR1995##R.sub.16-3 : ##STR1996##R.sub.16-4 : ##STR1997##X: Oxygen atomCompound 16-(19)R.sub.16-1 : ##STR1998##R.sub.16-2 : ##STR1999##R.sub.16-3 : ClR.sub.16-4 : ClX: Oxygen atomCompound 16-(20)R.sub.16-1 : ##STR2000##R.sub.16-2 : ##STR2001##R.sub.16-3 : ClR.sub.16-4 : ClX: Oxygen atomCompound 16-(21)R.sub.16-1 : ##STR2002##R.sub.16-2 : ##STR2003##R.sub.16-3 : BrR.sub.16-4 : BrX: Oxygen atomCompound 16-(22)R.sub.16-1 : ##STR2004##R.sub.16-2 : ##STR2005##R.sub.16-3 : HR.sub.16-4 : HX: Sulfur atomCompound 16-(23)R.sub.16-1 : ##STR2006##R.sub.16-2 : ##STR2007##R.sub.16-3 : HR.sub.16-4 : HX: Sulfur atomCompound 16-(24)R.sub.16-1 : ##STR2008##R.sub.16-2 : ##STR2009##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: Sulfur atomCompound 16-(25)R.sub.16-1 : ##STR2010##R.sub.16-2 : ##STR2011##R.sub.16-3 : ##STR2012##R.sub.16-4 : ##STR2013##X: Sulfur atomCompound 16-(26)R.sub.16-1 : ##STR2014##R.sub.16-2 : ##STR2015##R.sub.16-3 : HR.sub.16-4 : HX: Sulfur atomCompound 16-(27)R.sub.16-1 : ##STR2016##R.sub.16-2 : ##STR2017##R.sub.16-3 : HR.sub.16-4: HX: Sulfur atomCompound 16-(28)R.sub.16-1 : CH.sub.3R.sub.16-2 : CH.sub.3R.sub.16-3 : HR.sub.16-4 : HX: ##STR2018##Compound 16-(29)R.sub.16-1 : ##STR2019##R.sub.16-2 : ##STR2020##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2021##Compound 16-(30)R.sub.16-1 : ##STR2022##R.sub.16-2 : ##STR2023##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2024##Compound 16-(31)R.sub.16-1 : ##STR2025##R.sub.16-2 : ##STR2026##R.sub.16-3 : ##STR2027##R.sub.16-4 : ##STR2028##X: ##STR2029##Compound 16-(32)R.sub.16-1 : ##STR2030##R.sub.16-2 : ##STR2031##R.sub.16-3 : ##STR2032##R.sub.16-4 : ##STR2033##X: ##STR2034##Compound 16-(33)R.sub.16-1 : ##STR2035##R.sub.16-2 : ##STR2036##R.sub.16-3 : ##STR2037##R.sub.16-4 : ##STR2038##X: ##STR2039##Compound 16-(34)R.sub.16-1 : ##STR2040##R.sub.16-2 : ##STR2041##R.sub.16-3 : ClR.sub.16-4 : ClX: ##STR2042##Compound 16-(35)R.sub.16-1 : ##STR2043##R.sub.16-2 : ##STR2044##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2045##Compound 16-(36)R.sub.16-1 : ##STR2046##R.sub.16-2 : ##STR2047##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2048##Compound 16-(37)R.sub.16-1 : ##STR2049##R.sub.16-2 : ##STR2050##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2051##Compound 16-(38)R.sub.16-1 : ##STR2052##R.sub.16-2 : ##STR2053##R.sub.16-3 : ClR.sub.16-4 : ClX: ##STR2054##Compound 16-(39)R.sub.16-1 : ##STR2055##R.sub.16-2 : ##STR2056##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2057##Compound 16-(40)R.sub.16-1 : ##STR2058##R.sub.16-2 : ##STR2059##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2060##Compound 16-(41)R.sub.16-1 : ##STR2061##R.sub.16-2 : ##STR2062##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2063##Compound 16-(42)R.sub.16-1 : ##STR2064##R.sub.16-2 : ##STR2065##R.sub.16-3 : ##STR2066##R.sub.16-4 : ##STR2067##X: ##STR2068##Compound 16-(43)R.sub.16-1 : ##STR2069##R.sub.16-2 : ##STR2070##R.sub.16-3 : ##STR2071##R.sub.16-4 : ##STR2072##X: ##STR2073##Compound 16-(44)R.sub.16-1 : ##STR2074##R.sub.16-2 : ##STR2075##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2076##Compound 16-(45)R.sub.16-1 : ##STR2077##R.sub.16-2 : ##STR2078##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2079##Compound 16-(46)R.sub.16-1 : ##STR2080##R.sub.16-2 : ##STR2081##R.sub.16-3 : ##STR2082##R.sub.16-4 : ##STR2083##X: ##STR2084##Compound 16-(47)R.sub.16-1 : ##STR2085##R.sub.16-2 : ##STR2086##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2087##Compound 16-(48)R.sub.16-1 : ##STR2088##R.sub.16-2 : ##STR2089##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2090##Compound 16-(49)R.sub.16-1 : ##STR2091##R.sub.16-2 : ##STR2092##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2093##Compound 16-(50)R.sub.16-1 : ##STR2094##R.sub.16-2 : ##STR2095##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2096##Compound 16-(51)R.sub.16-1 : C.sub.2 H.sub.5R.sub.16-2 : C.sub.2 H.sub.5R.sub.16-3 : C.sub.2 H.sub.5R.sub.16-4 : C.sub.2 H.sub.5X: ##STR2097##Compound 16-(52)R.sub.16-1 : ##STR2098##R.sub.16-2 : ##STR2099##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2100##Compound 16-(53)R.sub.16-1 : ##STR2101##R.sub.16-2 : ##STR2102##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2103##Compound 16-(54)R.sub.16-1 : ##STR2104##R.sub.16-2 : ##STR2105##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2106##Compound 16-(55)R.sub.16-1 : ##STR2107##R.sub.16-2 : ##STR2108##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2109##Compound 16-(56)R.sub.16-1 : ##STR2110##R.sub.16-2 : ##STR2111##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2112##Compound 16-(57)R.sub.16-1 : ##STR2113##R.sub.16-2 : ##STR2114##R.sub.16-3 : ##STR2115##R.sub.16-4 : ##STR2116##X: ##STR2117##Compound 16-(58)R.sub.16-1 : ##STR2118##R.sub.16-2 : ##STR2119##R.sub.16-3 : ##STR2120##R.sub.16-4 : ##STR2121##X: ##STR2122##Compound 16-(59)R.sub.16-1 : ##STR2123##R.sub.16-2 : ##STR2124##R.sub.16-3 : ##STR2125##R.sub.16-4 : ##STR2126##X: ##STR2127##Compound 16-(60)R.sub.16-1 : ##STR2128##R.sub.16-2 : ##STR2129##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2130##Compound 16-(61)R.sub.16-1 : ##STR2131##R.sub.16-2 : ##STR2132##R.sub.16-3 : ClR.sub.16-4 : ClX: ##STR2133##Compound 16-(62)R.sub.16-1 : ##STR2134##R.sub. 16-2 : ##STR2135##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2136##Compound 16-(63)R.sub.16-1 : ##STR2137##R.sub.16-2 : ##STR2138##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2139##Compound 16-(64)R.sub.16-1 : ##STR2140##R.sub.16-2 : ##STR2141##R.sub.16-3 : ##STR2142##R.sub.16-4 : ##STR2143##X: ##STR2144##Compound 16-(65)R.sub.16-1 : ##STR2145##R.sub.16-2 : ##STR2146##R.sub.16-3 : CH.sub.3R.sub.16-4 : CH.sub.3X: ##STR2147##Compound 16-(66)R.sub.16-1 : ##STR2148##R.sub.16-2 : ##STR2149##R.sub.16-3 : ##STR2150##R.sub.16-4 : ##STR2151##X: ##STR2152##Compound 16-(67)R.sub.16-1 : ##STR2153##R.sub.16-2 : ##STR2154##R.sub.16-3 : C.sub.2 H.sub.5R.sub.16-4 : C.sub.2 H.sub.5X: ##STR2155##Compound 16-(68)R.sub.16-1 : C.sub.2 H.sub.5R.sub.16-2 : C.sub.2 H.sub.5R.sub.16-3 : ##STR2156##R.sub.16-4 : ##STR2157##X: ##STR2158##Compound 16-(69)R.sub.16-1 : CH.sub.3R.sub.16-2 : CH.sub.3R.sub.16-3 : ##STR2159##R.sub.16-4 : ##STR2160##X: ##STR2161##Compound 16-(70)R.sub.16-1 : ##STR2162##R.sub.16-2 : ##STR2163##R.sub.16-3 : ##STR2164##R.sub.16-4 : ##STR2165##X: ##STR2166##Compound 16-(71)R.sub.16-1 : ##STR2167##R.sub.16-2 : ##STR2168##R.sub.16-3 : C.sub.2 H.sub.5R.sub.16-4 : C.sub.2 H.sub.5X: ##STR2169##Compound 16-(72)R.sub.16-1 : ##STR2170##R.sub.16-2 : ##STR2171##R.sub.16-3 : ##STR2172##R.sub.16-4 : ##STR2173##X: ##STR2174##Compound 16-(73)R.sub.16-1 : ##STR2175##R.sub.16-2 : ##STR2176##R.sub.16-3 : ##STR2177##R.sub.16-4 : ##STR2178##X: ##STR2179##Compound 16-(74)R.sub.16-1 : ##STR2180##R.sub.16-2 : ##STR2181##R.sub.16-3 : ClR.sub.16-4 : ClX: ##STR2182##Compound 16-(75)R.sub.16-1 : ##STR2183##R.sub.16-2 : ##STR2184##R.sub.16-3 : HR.sub.16-4 : HX: ##STR2185##______________________________________
Next, synthesis examples of the compounds which can be used in the present invention will be described.
Synthesis Example 1
[Synthesis of Compound Example 1-(1)]
5 g of dimethyl diphenylmethylsulfonate and 3.5 g of 7-nitrofluorenone-2-aldehyde were dissolved in 60 ml of N,N-dimethylformamide (DFM), and 1.77 g of sodium methoxide was slowly added thereto at room temperature. After completion of the addition, the solution was stirred at room temperature for 1 hour as it was, and it was further stirred for 3 hours, while being heated up to 50.degree. C. on a water bath. After standing for cooling, the solution was poured into water, and the precipitated crystals were collected by filtration and then recrystallized twice from a mixed solvent of toluene and methyl ethyl ketone, thereby obtaining 1.9 g of the desired compound. Its yield was 37.2%.
Synthesis Example 2
[Synthesis of Compound Example 2-(3)]
0.81 g (14.9 mmols) of sodium methylate was added to 40 ml of DMF, and a solution of 3.90 g (14.27 mmols) of diethyl p-nitrobenzylphosphonate and 10 ml of DMF were slowly added dropwise thereto. After completion of the addition, the solution was stirred for 15 minutes as it was, and a solution of 2.04 g (13.0 mmols) of 5-nitro-2-thiophenecarboxyaldehyde and 8 ml of DMF was then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 30 minutes as it was, and it was further heated and stirred at 40.degree.-50.degree. C. for 2 hours on a water bath. After standing for cooling, the solution was poured into 300 ml of an aqueous saturated sodium chloride solution, followed by extraction with toluene. The resultant organic layer was then washed with water and then dried over anhydrous sodium sulfate. After the removal of the solvent under reduced pressure, separation/purification was carried out through a silica gel column to obtain 2.45 g of the desired compound. Its yield was 68%.
Synthesis Example 3
[Synthesis of Compound Example 3-(21)]
0.76 g (14.0 mmols) of sodium methylate was added to 15 ml of DMF, and a solution of 3.25 g (11.9 mmols) of diethyl m-nitrobenzylphosphonate and 20 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 15 minutes as it was, and a solution of 2.0 g (7.0 mmols) of ##STR2186## and 40 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 10 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 2 hours on an oil bath. After standing fur cooling, the solution was poured into 400 ml of methanol, and the precipitated crystals were then collected by filtration.
The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 1.24 g of the desired compound. Its yield was 44%.
Synthesis Example 4
[Synthesis of Compound Example 4-(17)]
0.63 g (11.7 mmols) of sodium methylate was added to 15 ml of DMF, and a solution of 2.8 g (10.2 mmols) of diethyl o-nitrobenzylphosphate and 15 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 15 minutes as it was, and a solution of 1.5 g (6.4 mmols) of ##STR2187## and 10 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 15 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 2 hours on an oil bath. After standing for cooling, the solution was poured into 300 ml of methanol, and the precipitated crystals were then collected by filtration.
The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 1.6 g of the desired compound. Its yield was 1%.
Synthesis Example 5
[Synthesis of Compound Example 5-(3)]
0.68 g (12.6 mmols) of sodium methylate was added to 10 ml of DMF, and a solution of 3.0 g (11.0 mmols) of diethyl p-nitrobenzylphosphonate and 10 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C.. After completion of the addition, the solution was stirred for 15 minutes as it was, and a solution of 2.0 g (7.0 mmols) of ##STR2188## and 15 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 30 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 2 hours on an oil bath. After standing for cooling, the solution was poured into 300 ml of methanol, and the precipitated crystals were then collected by filtration.
The resultant crude crystals were further washed with acetone and then recrystallized several times from a mixed solvent of toluene and DMF to obtain 1.17 g of the desired compound. Its yield was 41%.
Synthesis Example 6
[Synthesis of Compound Example 6-(4)]
1.70 g (31.5 mmols) of sodium methylate was added to 15 ml of DMF, and a solution of 8.08 g (29.6 mmols) of diethyl o-nitrobenzylphosphonate and 15 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 15 minutes as it was, and a solution of 5.0 g (17.4 mmols) of ##STR2189## and 10 ml of DMF were then slowly added dropwise thereto at 20.degree. C. or less. After completion of the addition, the solution was stirred for 15 minutes as it was, and it was further heated and stirred at 40.degree.-45.degree. C. for 2 hours on an oil bath.
After standing for cooling, the solution was poured into 350 ml of methanol, and the precipitated crystals were then collected by filtration. The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 4.62 g of the desired compound. Its yield was 68%.
Synthesis Example 7
[Synthesis of Compound Example 7-(4)]
0.73 g (13.5 mmols) of sodium methylate was added to 10 ml of DMF, and a solution of 3.35 g (12.3 mmols) of diethyl o-nitrobenzylphosphonate and 15 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 30 minutes as it was, and a solution of 2.0 g (6.8 mmols) of ##STR2190## and 20 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 10 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 2 hours on an oil bath. After standing for cooling, the solution was poured into 300 ml of methanol, and the precipitated crystals were then collected by filtration.
The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 1.19 g of the desired compound. Its yield was 42.4%.
Synthesis Example 8
[Synthesis of Compound Example 8-(4)]
1.0 g (18.5 mmols) of sodium methylate was added to 15 ml of DMF, and a solution of 4.36 g (16.0 mmols) of diethyl m-nitrobenzylphosphonate and 20 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 20 minutes as it was, and a solution of 2.0 g (9.4 mmols) of ##STR2191## and 40 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 10 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 3 hours on an oil bath. After standing for cooling, the solution was poured into 500 ml of methanol, and the precipitated crystals were then collected by filtration.
The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 1.2 g of the desired compound. Its yield was 38.5%.
Synthesis Example 9
[Synthesis of Compound Example 9-(24)]
2.6 g (48.1 mmols) of sodium methylate was added to 15 ml of DMF, and a solution of 11.0 g (40.3 mmols) of diethyl m-nitrobenzylphosphonate and 30 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 30 minutes as it was, and a solution of 3.0 g (13.5 mmols) of ##STR2192## and 15 ml of DMF were then slowly added dropwise thereto at 30.degree. C. or less. After completion of the addition, the solution was stirred for 10 minutes as it was, and it was further heated and stirred at 50.degree.-55.degree. C. for 2 hours on an oil bath.
After standing for cooling, the solution was poured into 250 ml of methanol, and the precipitated crystals were then collected by filtration. The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 4.2 g of the desired compound. Its yield was 67.6%.
Synthesis Example 10
[Synthesis of Compound Example 10-(21)]
1.4 g (25.9 mmols) of sodium methylate was added to 15 ml of DMF, and a solution of 6.2 g (22.7 mmols) of diethyl m-nitrobenzylphosphonate and 30 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 20 minutes as it was, and a solution of 2.0 g (8.1 mmols) of ##STR2193## and 30 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 15 minutes as it was, and it was further heated and stirred at 60.degree.-70.degree. C. for 3 hours on an oil bath.
After standing for cooling, the solution was poured into 500 ml of methanol, and the precipitated crystals were then collected by filtration. The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate to obtain 1.87 g of the desired compound. Its yield was 47.4%.
Synthesis Example 11
[Synthesis of Compound Example 11-(21)]
1.25 g (23.1 mmols) of sodium methylate was added to 15 ml of DMF, and a solution of 4.71 g (17.2 mmols) of diethyl p-nitrobenzylphosphonate and 15 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 30 minutes as it was, and a solution of 3.0 g (11.5 mmols) of ##STR2194## and 25 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 20 minutes as it was, and it was further heated and stirred at 60.degree.-65.degree. C. for 3 hours on an oil bath.
After standing for cooling, the solution was poured into 300 ml of methanol, and the precipitated crystals were then collected by filtration. The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 1.66 g of the desired compound. Its yield was 38%.
Synthesis Example 12
[Synthesis of Compound Example 12-(24)]
0.84 g (15.5 mmols) of sodium methylate was added to 20 ml of DMF, and a solution of 3.79 g (13.9 mmols) of diethyl p-nitrobenzylphosphonate and 15 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 10 minutes as it was, and a solution of 2.0 g (7.7 mmols) of ##STR2195## and 40 ml of DMF were then slowly added dropwise thereto at 20.degree. C. or less. After completion of the addition, the solution was stirred for 30 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 2 hours on an oil bath. After standing for cooling, the solution was poured into 400 ml of methanol, and the precipitated crystals were then collected by filtration.
The resultant crude crystals were further washed with acetone and then recrystallized several times from a mixed solvent of toluene and DMF, thereby obtaining 1.49 g of the desired compound. Its yield was 51%.
Synthesis Example 13
[Synthesis of Compound Example 13-(4)]
0.62 g (11.5 mmols) of sodium methylate was added to 10 ml of DMF, and a solution of 2.6 g (9.5 mmols) of diethyl o-nitrobenzylphosphonate and 15 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 10 minutes as it was, and a solution of 1.5 g (5.7 mmols) of ##STR2196## and 20 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 10 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 2 hours on an oil bath. After standing for cooling, the solution was poured into 300 ml of methanol, and the precipitated crystals were then collected by filtration.
The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 1.1 g of the desired compound. Its yield was 50%.
Synthesis Example 14
[Synthesis of Compound Example 14-(20)]
3.6 g (66.6 mmols) of sodium methylate was added to 30 ml of DMF, and a solution of 13.2 g (48.3 mmols) of diethyl p-nitrobenzylphosphonate and 45 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 30 minutes as it was, and a solution of 5.0 g (16.8 mmols) of ##STR2197## and 40 ml of DMF were then slowly added dropwise thereto at 30.degree. C. or less. After completion of the addition, the solution was stirred for 10 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 2 hours on an oil bath.
After standing for cooling, the solution was poured into 500 ml of methanol, and the precipitated crystals were then collected by filtration. The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate, thereby obtaining 4.3 g of the desired compound. Its yield was 47.7%.
Synthesis Example 15
[Synthesis of Compound Example 15-(14)]
0.57 g (10.6 mmols) of sodium methylate was added to 20 ml of DMF, and a solution of 2.45 g (9.0 mmols) of diethyl m-nitrobenzylphosphonate and 10 ml of DMF were slowly added dropwise thereto at 20.degree.-25.degree. C. After completion of the addition, the solution was stirred for 30 minutes as it was, and a solution of 2.0 g (5.3 mmols) of ##STR2198## and 15 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 15 minutes as it was, and it was further heated and stirred at 60.degree.-70.degree. C. for 2 hours on an oil bath.
After standing for cooling, the solution was poured into 300 ml of methanol, and the precipitated crystals were then collected by filtration. The resultant crude crystals were further washed with methanol and then recrystallized several times from a mixed solvent of toluene and ethyl acetate to obtain 1.1 g of the desired compound. Its yield was 41.9%.
Synthesis Example 16
[Synthesis of Compound Example 16-(43)]
2.66 g (49.2 mmols) of sodium methylate was added to 40 ml of DMF, and a solution of 12.22 g (44.7 mmols) of diethyl p-nitrobenzylphosphonate and 40 ml of DMF were slowly added dropwise thereto at about 20.degree. C. After completion of the addition, the solution was stirred for 15 minutes as it was, and a solution of 8.95 g (34.4 mmols) of 2,5-dimethyl-3,4-diphenylcyclopentadienone and 50 ml of DMF were then slowly added dropwise thereto at 25.degree. C. or less. After completion of the addition, the solution was stirred for 30 minutes as it was, and it was further heated and stirred at 50.degree.-60.degree. C. for 3 hours on a water bath. After standing for cooling, the solution was poured into water, and the precipitated crystals were collected by filtration, washed with methanol, and then recrystallized from a mixed solvent of toluene and DMF, thereby obtaining 5.95 g of the desired compound. Its yield was 45.6%.
The other compounds can also be synthesized in similar ways, but these synthesis methods are not restrictive.
The electrophotographic photosensitive member of the present invention comprises an electroconductive support and a photosensitive layer laid on the electroconductive support. Constitutional examples of the photosensitive layer include the following types (1), (2), (3) and (4). Each constitution of these types will be shown with the expression of a lower layer/an upper layer.
(1) Layer containing a charge-generating substance/layer containing a charge transporting substance,
(2) layer containing a charge-transporting substance/layer containing a charge-generating substance,
(3) layer containing a charge-generating substance and a charge transporting substance, and
(4) layer containing a charge-generating substance/layer containing a charge-generating substance and a charge transporting substance.
The usable compounds in the present invention which can be typified by the above-mentioned compounds have high ability for enhancing the mobility of electrons. In the type (1) photosensitive layer, the compounds are preferably employed for positive charges; in the type (2), the compounds are preferably employed for negative charges; and in the types (3) and (4), the compounds can be employed either for positive charges or for negative charges.
Naturally, the constitution of the electrophotographic photosensitive member of the present invention is not limited to the above-mentioned fundamental constitutions.
The particularly preferable type of the photosensitive layer of the present invention is the above-mentioned type (1), and thus this type will be described in more detail.
In the present invention, any charge-generating substance can be used, so long as it has charge-generating ability. Examples of the charge-generating substance are as follows.
(1) Azo pigments such as monoazo, bisazo and trisazo,
(2) phthalocyanine pigments such as metal phthalocyanine and non-metal phthalocyanine,
(3) indigo pigments such as indigo and thioindigo,
(4) perylene pigments such as perylenic anhydride and perylenic imide,
(5) polycyclic quinone pigments such as anthraquinone and pyrenequinone,
(6) squarilium dyes,
(7) pyrylium salts and thiopyrylium salts,
(8) triphenylmethane dyes, and
(9) inorganic substances such as selenium and amorphous silicon.
Such a charge-generating substance may be used singly or in combination of two or more thereof.
A layer containing the charge-generating substance, that is, a charge-generating layer can be formed by dispersing the charge-generating substance in a suitable binder, and then applying the resultant dispersion on an electroconductive support. The charge-generating layer can also be obtained by forming a thin film on an electroconductive support by a dry method such as vapor deposition, sputtering, CVD and the like.
The above-mentioned binder may be selected from a great variety of binder resins, and examples of the binder resins include polycarbonates, polyesters, polyarylates, butyral resins, polystyrenes, polyvinylacetals, diallyl phthalate resins, acrylic resins, methacrylic resins, vinyl acetate resins, phenolic resins, silicone resins, polysulfones, styrene-butadiene copolymers, alkyd resins, epoxy resins, urea resins and vinyl chloride-vinyl acetate copolymers. However, the above-mentioned binder is not limited thereto.
These resins may be used singly or in combination of two or more thereof.
The resin is contained in the charge-generating layer preferably in an amount of not more than 80% by weight, more preferably not more than 40% by weight based on the total layer weight.
The film thickness of the charge-generating layer is preferably not more than 5 .mu.m, more preferably in the range of from 0.01 to 2 .mu.m.
The charge-generating layer may further contain a sensitizing agent.
The layer containing the charge-transporting substance, that is, a charge-transporting layer can be formed by combining the compound which can be used in the present invention with a suitable binder resin. In this case, the compounds regarding the present invention can be used singly or in combination of two or more thereof, and another charge-transporting substance may further be used in combination.
Examples of the binder resin for the charge-transporting layer include photoconductive polymers such as polyvinylcarbazoles and polyvinylanthracenes in addition to the above-mentioned substances used as the binder for the charge-generating layer.
The blend ratio of the compound which can be used in the present invention to the binder resin is such that the amount of the fluorene is from 10 to 500 parts by weight with respect to 100 parts by weight of the binder.
The thickness of the charge-transporting layer is preferably in the range of from 5 to 40 .mu.m, more preferably from 10 to 30 .mu.m.
The charge-transporting layer can additionally contain an antioxidant, an ultraviolet absorbing agent or a plasticizer, if necessary.
In the case where the photosensitive layer has the constitution type (3) mentioned above, that is, in the case of the single layer, this layer is formed by dispersing or dissolved the above-mentioned charge-generating substance and the compound which can be used in the present invention in the above-mentioned suitable binder to prepare a coating liquid, applying the coating liquid on a support, and then drying the same. The thickness of the layer is preferably in the range of from 5 to 40 .mu.m, more preferably from 10 to 30 .mu.m.
In the present invention, a layer having a barrier function and an adhesive function, i.e., the so-called subbing layer can be provided between the electroconductive support and the photosensitive layer.
Examples of the material for the subbing layer include polyvinyl alcohol, polyethylene oxide, ethyl cellulose, methyl cellulose, casein, polyamide, glue and gelatin.
The subbing layer can be formed by dissolving the above-mentioned material in a suitable solvent, and then applying the resultant solution on an electroconductive support. The thickness of the subbing layer is preferably 5 .mu.m or less, more preferably in the range of from 0.2 to 3.0 .mu.m.
Furthermore, in the present invention, for protecting the photosensitive layer from various external mechanical and electrical forces, a resin layer or another resin layer containing an electroconductive substance dispersed therein may be provided on the photosensitive layer.
The above-mentioned various layers can be formed on the electroconductive support by coating technique such as immersion coating, spray coating, spinner coating, roller coating, Meyer-bar coating or blade coating by the use of a suitable solvent.
Examples of the electroconductive support in the present invention include the following types.
(1) A metal such as aluminum, an aluminum alloy, stainless steel or copper in a plate shape or a drum shape.
(2) A non-electroconductive support such as a glass, a resin or a paper, or an electroconductive support mentioned in the previous item (1) on which a metal such as aluminum, palladium, rhodium, gold or platinum is vapor-deposited or laminated in the form of a coating film.
(3) A non-electroconductive support such as a glass, a resin or a paper, or an electroconductive support mentioned in the previous item (1) on which an electroconductive polymer, or an electroconductive compound such as tin oxide or indium oxide is vapor-deposited or applied.
The electrophotographic photosensitive member of the present invention is useful not only for electrophotographic copying machines but also for a variety of application fields of electrophotography such as facsimiles, laser printers, CRT printers and electrophotographic engraving systems.
FIG. 1 shows a schematic embodiment of a usual transfer type electrophotographic apparatus employing the electrophotographic photosensitive member of the present invention.
In FIG. 1, a drum type photosensitive member 1 serves as an image carrier and is rotated around an axis 1a in an arrow direction at a predetermined peripheral speed. The photosensitive member 1 is uniformly charged with positive or negative predetermined potential on the peripheral surface thereof by an electrostatic charging means 2 during the rotation thereof, and an exposure part 3 of the member 1 is then exposed to image-exposure light L (e.g., slit exposure, laser beam-scanning exposure or the like) by an image-exposure means (not shown), whereby an electrostatic latent image corresponding to the exposed image is sequentially formed on the peripheral surface of the photosensitive member 1.
The electrostatic latent image is developed with a toner by a developing means 4, and the toner-developed image is sequentially transferred by a transfer means 5 onto the surface of a transfer material P which is fed from a paper feeder (not shown) between the photosensitive member 1 and the transfer means 5 synchronizing with the rotation of the photosensitive member 1.
The transfer material P which has received the transferred image is separated from the surface of the photosensitive member, introduced into an image fixing means 8 to fix the image, and then discharged from the copying machine as a copy.
After the transfer of the image, the surface of the photosensitive member 1 is cleaned with a cleaning means 6 to remove the residual untransferred toner, and the member 1 is then subjected to an electrostatic charge eliminating treatment by an exposure means 7 so as to be repeatedly used for image formation.
As the uniform charging means for the photosensitive member 1, a corona charging apparatus is usually widely used. Furthermore, also as the transfer means 5, the corona charging apparatus is usually widely used. The electrophotographic apparatus can comprise an integral apparatus unit consisting of some of constitutional members such as the above-mentioned photosensitive member, developing means, cleaning means and the like, and this unit may be adapted to be detachable from the main apparatus. For example, at least one of the electrostatic charging means, the developing means and the cleaning means can be combined with the photosensitive member to form a unit which can be optionally detached from the main apparatus with the aid of a guiding means such as rails extending from the main apparatus. In this case, the apparatus unit may be associated with the electrostatic charging means and/or the developing means.
In the case where the electrophotographic apparatus is used as a copying machine or a printer, the optical image exposure light L is projected onto the photosensitive member as the reflected light or transmitted light from an original copy, or alternatively the signalized information is read out from an original copy by a sensor and then followed by scanning with a leaser beam, driving an LED array, or driving a liquid crystal shutter array in accordance with the signal, and the exposure light is projected onto the photosensitive member.
In the case where the electrophotographic apparatus is used as a printer of a facsimile device, the optical image exposure light L functions as an exposure for printing the received data. FIG. 2 is a block diagram of one example in this case.
A controller 11 controls an image reading part 10 and a printer 19. The whole of the controller 11 is controlled by a CPU 17. The readout data from the image reading part is transmitted through a transmitting circuit 13 to the partner communication station. The data received from the partner communication station is transmitted through a receiving circuit 12 to a printer 19. The predetermined amount of the image data is stored in an image memory. A printer controller 18 controls the printer 19. Numeral 14 denotes a telephone set.
The image received through the circuit 15 (the image information from a remote terminal connected through the circuit) is demodulated by the receiving circuit 12, treated to decode the image information in the CPU 17, and then successively stored in an image memory 16. When at least one page of the image has been stored in the image memory 16, the image is recorded in such a manner that the CPU 17 reads out the one page of the image information from the image memory 16, and then sends out the decoded one page of the information to the printer controller 18. On receiving the one page of the information from the CPU 17, this printer controller 18 controls the printer 19 to record the image information.
Incidentally, the CPU 17 receives the following page of the information, while the recording is conducted by the printer 19.
The receiving and recording of the images are carried out in the above-mentioned manner.
EXAMPLE 1
4 g of oxytitaniumphthalocyanine obtained in accordance with a preparation example disclosed in Japanese Patent Application Laid-open No. 61-239248 (U.S. Pat. No. 4,728,592) was dispersed in a solution obtained by dissolving 2 g of a polybutyral resin (butyralization degree 70 mol %, weight average molecular weight 50,000) in 90 ml of cyclohexanone for 20 hours by means of a sand mill, thereby preparing a coating liquid.
This coating liquid, after diluted, was applied onto an aluminum sheet by a Meyer bar so that the thickness of a dry layer might be 0.2 .mu.m, to form a charge-generating layer.
Next, 5 g of Compound Example 1-(9) which was a charge-transporting substance and 5 g of a polycarbonate resin (weight average molecular weight 40,000) were dissolved in 40 g of a mixture of monochlorobenzene (50 parts by weight) and N,N-dimethylformamide (50 parts by weight), and the resultant solution was applied onto the above-mentioned charge-generating layer by the Meyer bar to form a charge-transporting layer having a dry thickness of 15 .mu.m, whereby an electrophotographic photosensitive member was prepared.
The charging characteristics of the thus prepared electrophotographic photosensitive member were evaluated by subjecting this member to corona discharge under +6 KV in accordance with a static mode by the use of an electrostatic copying-paper tester (model EPA-8100, made by Kawaguchi Denki K.K.), allowing it to stand in the dark for 1 hour, and then exposing it to the light having an illuminance of 20 lux.
As the charging characteristics, there were measured a surface potential (V.sub.0), a potential (V.sub.1) after dark decay by standing for 1 second in the dark, an exposure (E.sub.1/2) necessary to decay V.sub.1 to 1/2, and a potential after irradiation of a light volume of 100 Lux.sec, i.e., a remaining potential (V.sub.R).
Furthermore, for the purpose of evaluating the durability of the previously prepared electrophotographic photosensitive member, this member was attached onto the photosensitive drum of a copying machine (a remodeled type of NP-6650, made by Canon K. K.), and 1,000 sheets were copied by the machine. In this case, a light-portion potential (V.sub.L) and a dark-portion potential (V.sub.D) were measured for the copies at an early stage and the copies after 1,000 sheets were copied. Here, V.sub.D and V.sub.L at the early stage were set so as to be +650 V and +150 V, respectively. The results are shown in Table 1.
TABLE 1______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 1 710 700 3.6 50______________________________________ Initial Potential after Durability Potential Test of 1,000 Copies (+V) (+V)______________________________________Example 1 V.sub.D 650 648 V.sub.L 150 153______________________________________
EXAMPLES 2 to 10
The same procedure as in Example 1 was effected except that Compound Example 1-(9) of a charge-transporting substance was replaced with each of Compound Examples 1-(3), 1-(6), 1-(10), 1-(11), 1-(13), 1-(21), 1-(29), 1-(36) and 1-(43), to prepare electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 2.
COMPARATIVE EXAMPLES 1 to 6
The same procedure as in the above-mentioned examples was effected except that the following compounds were used as charge-transporting substances, thereby preparing electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 3. ##STR2199##
TABLE 2______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________2 1-(3) 710 700 3.1 603 1-(6) 700 697 3.3 504 1-(10) 715 710 3.0 605 1-(11) 685 680 3.9 706 1-(13) 695 690 3.6 707 1-(21) 701 694 3.8 608 1-(29) 700 694 2.5 509 1-(36) 702 693 2.3 4010 1-(43) 695 690 4.1 60______________________________________ Potential after DurabilityInitial Potential Test of 1,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________2 650 150 640 1403 650 150 635 1414 650 150 642 1495 650 150 650 1376 650 150 641 1407 650 150 637 1438 650 150 649 1489 650 150 650 15110 650 150 639 139______________________________________
TABLE 3______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux.multidot.sec) (+V)______________________________________1 1-(1) 710 702 13.4 2602 1-(2) 711 704 14.5 2403 1-(3) 689 679 11.2 1804 1-(4) 702 698 -- 6955 1-(5) 699 696 -- 6906 1-(6) 702 697 -- 695______________________________________ Potential after DurabilityComp. Initial Potential Test of 1,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________1 -- -- -- --2 -- -- -- --3 -- -- -- --4 -- -- -- --5 -- -- -- --6 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potentia was high, and thus measurement or setting was impossible.
EXAMPLE 11
The same procedure as in Example 1 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 40,000, the amount of cyclohexane was 95 ml, a dispersing time was 24 hours, a charge-transporting substance was Comparative Example 2-(4), the weight average molecular weight of a polycarbonate resin was 35,000, its amount was 6 g, and 100 g of chlorobenzene was used as a solvent for a charge-transporting layer, whereby an electrophotographic photosensitive member was prepared. In this case, the thickness of a charge-generating layer was 0.4 .mu.m and that of the charge-transporting layer was 17 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 1 except that 2,000 sheets were copied.
The results are shown in Table 4.
TABLE 4______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 11 690 680 2.9 29______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 11 V.sub.D 650 655 V.sub.L 150 145______________________________________
EXAMPLES 12 to 20
and
Comparative Examples 7 to 10
The same procedure as in Example 11 was effected except that Compound Example 2-(4) of a charge-transporting substance was replaced with each of Compound Examples 2-(1), 2-(11), 2-(12), 2-(22), 2-(23), 2-(37), 2-(45), 2-(70) and 2-(61), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 5. ##STR2200##
TABLE 5______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________12 2-(1) 710 700 3.9 5013 2-(11) 705 690 2.7 4014 2-(12) 710 695 3.1 4015 2-(22) 700 685 2.3 3016 2-(23) 700 690 3.2 3017 2-(37) 710 705 2.4 3018 2-(45) 700 690 2.2 4019 2-(70) 710 700 3.1 4520 2-(61) 710 695 2.9 40______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________12 650 150 640 16013 650 150 645 14514 650 150 635 15515 650 150 645 15016 650 150 635 13517 650 150 640 15518 650 150 650 15519 650 150 635 14520 650 150 640 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________7 2-(1) 700 680 6.0 1408 2-(2) 700 700 -- 3409 2-(3) 700 690 19.0 23010 2-(4) 700 700 23.0 250______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________7 650 150 600 1968 -- -- -- --9 -- -- -- --10 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potentia was high, and thus measurement or setting was impossible.
EXAMPLE 21
The same procedure as in Example 11 was effected except that a charge-transporting substance was Compound Example 3-(8) and the weight average molecular weight of a polycarbonate resin was 80,000, thereby obtaining an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 20 .mu.m.
The thus obtained photosensitive member was then evaluated in the same manner as in Example 11.
The results are shown in Table 6.
TABLE 6______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 21 690 680 2.7 35______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 21 V.sub.D 650 640 V.sub.L 150 145______________________________________
EXAMPLES 22 to 30
and
Comparative Examples 11 to 12
The same procedure as in Example 21 was effected except that Compound Example 3-(8) of a charge-transporting substance was replaced with each of Compound Examples 3-(3), 3-(15), 3-(29), 3-(33), 3-(45), 3-(58), 3-(60), 3-(69) and 3-(78), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 7. ##STR2201##
TABLE 7______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________22 3-(3) 710 690 2.8 4023 3-(15) 705 690 2.7 4024 3-(29) 710 690 2.6 3025 3-(33) 700 695 2.3 3026 3-(45) 700 690 2.5 3027 3-(58) 710 705 2.4 3528 3-(60) 700 690 3.0 5029 3-(69) 710 700 3.1 5030 3-(78) 710 695 2.9 45______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________22 650 150 640 16023 650 150 645 14524 650 150 640 15025 650 150 650 14526 650 150 650 13527 650 150 645 14028 650 150 660 15529 650 150 655 14530 650 150 640 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________11 3-(1) 700 700 -- 65012 3-(2) 700 700 22.0 300______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________11 -- -- -- --12 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potentia was high, and thus measurement or setting was impossible.
EXAMPLE 31
The same procedure as in Example 11 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 80,000, a dispersing time was 10 hours, a charge-transporting substance was Compound Example 4-(4), and the weight average molecular weight of a polycarbonate resin was 50,000, whereby an electrophotographic photosensitive member was prepared. In this case, the thickness of a charge-transporting layer was 19 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 8.
TABLE 8______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 31 690 680 2.6 30______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 31 V.sub.D 650 640 V.sub.L 150 145______________________________________
EXAMPLES 32 to 40
and
Comparative Examples 13 to 14
The same procedure as in Example 31 was effected except that Compound Example 4-(4) of a charge-transporting substance was replaced with each of Compound Examples 4-(3), 4-(8), 4-(9), 4-(13), 4-(18), 4-(21), 4-(27), 4-(29) and 4-(37), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 9. ##STR2202##
TABLE 9______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________32 4-(3) 710 700 2.8 4033 4-(8) 705 690 3.2 5034 4-(9) 710 695 3.4 5535 4-(13) 700 690 2.3 3036 4-(18) 700 695 3.0 4537 4-(21) 710 705 2.9 4038 4-(27) 700 690 2.2 3039 4-(29) 710 700 2.3 2540 4-(37) 710 695 2.2 25______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________32 650 150 640 15033 650 150 645 14534 650 150 635 16035 650 150 645 14536 650 150 650 14037 650 150 640 15538 650 150 650 16039 650 150 655 14540 650 150 640 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub. RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________13 4-(1) 700 700 -- --14 4-(2) 700 700 -- 630______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________13 -- -- -- --14 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potentia was high, and thus measurement or setting was impossible.
EXAMPLE 41
The same procedure as in Example 11 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 100,000, a dispersing time was 10 hours, and a charge-transporting substance was Compound Example 5-(48), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.2 .mu.m, and that of a charge-transporting layer was 20 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 10.
TABLE 10______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 41 690 680 2.8 35______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 41 V.sub.D 650 645 V.sub.L 150 150______________________________________
EXAMPLES 42 to 50
and
Comparative Examples 15 to 16
The same procedure as in Example 41 was effected except that Compound Example 5-(48) of a charge-transporting substance was replaced with each of Compound Examples 5-(7), 5-(12), 5-(19), 5-(23), 5-(29), 5-(66), 5-(85), 5-(111) and 5-(114), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as .charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 11. ##STR2203##
TABLE 11______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________42 5-(7) 710 700 2.8 5043 5-(12) 705 690 2.7 4044 5-(19) 710 695 4.0 6045 5-(23) 700 685 2.6 3546 5-(29) 700 690 3.2 4547 5-(66) 710 705 2.4 3048 5-(85) 700 690 3.8 4549 5-(111) 710 700 2.7 3550 5-(114) 710 695 2.9 40______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________42 650 150 640 14543 650 150 645 14044 650 150 635 13045 650 150 645 14546 650 150 630 13547 650 150 640 15048 650 150 665 17049 650 150 635 14550 650 150 645 145______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________15 5-(1) 700 700 -- --16 5-(2) 700 700 17.0 260______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________15 -- -- -- --16 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 51
The same procedure as in Example 11 was effected except that a charge-transporting substance was Compound Example 6-(91), its amount was 6 g, and the weight average molecular weight of a polycarbonate resin was 50,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.2 .mu.m, and that of a charge-transporting layer was 19 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 12.
TABLE 12______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 51 690 680 2.3 35______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 51 V.sub.D 650 645 V.sub.L 150 140______________________________________
EXAMPLES 52 to 60
and
Comparative Examples 17 and 18
The same procedure as in Example 51 was effected except that Compound Example 6-(91) of a charge-transporting substance was replaced with each of Compound Examples 6-(5), 6-(27), 6-(39), 6-(49), 6-(60), 6-(65), 6-(70), 6-(77) and 6-(82), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 13. ##STR2204##
TABLE 13______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________51 6-(5) 710 700 3.8 5552 6-(27) 705 690 2.7 4053 6-(39) 710 695 3.9 5554 6-(49) 705 690 2.3 3055 6-(60) 700 690 2.5 3056 6-(65) 705 705 2.2 4557 6-(70) 700 690 2.6 4058 6-(77) 705 700 3.4 5059 6-(82) 710 695 2.9 45______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________51 650 150 635 16052 650 150 645 14553 650 150 630 16054 650 150 645 15055 650 150 650 13556 650 150 655 15557 650 150 650 14558 650 150 635 13059 650 150 640 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub. 1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________17 6-(1) 700 700 -- 60018 6-(2) 700 700 -- 380______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________17 -- -- -- --18 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 61
The same procedure as in Example 11 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 50,000, a dispersing time was 20 hours, a charge-transporting substance was Compound Example 7-(3), and the weight average molecular weight of a polycarbonate resin was 50,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.um, and that of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 14.
TABLE 14______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 61 690 680 2.8 35______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 61 V.sub.D 650 645 V.sub.L 150 140______________________________________
EXAMPLES 62 to 70
and
Comparative Examples 19 and 20
The same procedure as in Example 61 was effected except that Compound Example 7-(3) of a charge-transporting substance was replaced with each of Compound Examples 7-(5), 7-(13), 7-(26), 7-(32), 7-(48), 7-(59), 7-(68), 7-(78) and 7-(84), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 15. ##STR2205##
TABLE 15______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________62 7-(5) 710 700 3.0 5563 7-(13) 705 690 2.7 4564 7-(26) 710 695 2.9 5065 7-(32) 700 685 2.5 3566 7-(48) 700 690 2.5 3067 7-(59) 710 705 3.9 5068 7-(68) 700 690 2.2 2069 7-(78) 710 700 2.8 3570 7-(84) 710 695 2.9 40______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________62 650 150 640 14063 650 150 645 14564 650 150 635 13565 650 150 645 15066 650 150 635 14567 650 150 665 16568 650 150 650 15569 650 150 640 14570 650 150 640 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub. 1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________19 7-(1) 700 700 -- --20 7-(2) 700 700 15.0 280______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________19 -- -- -- --20 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 71
The same procedure as in Example 11 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 30,000, a charge-transporting substance was Compound Example 8-(11), and the weight average molecular weight of a polycarbonate resin was 55,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 16.
TABLE 16______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 71 690 680 3.0 45______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 71 V.sub.D 650 655 V.sub.L 150 145______________________________________
EXAMPLES 72 to 80
and
Comparative Examples 21 and 22
The same procedure as in Example 71 was effected except that Compound Example 8-(11) of a charge-transporting substance was replaced with each of Compound Examples 8-(9), 8-(14), 8-(21), 8-(26), 8-(30), 8-(61), 8-(63), 8-(66) and 8-(69), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 17. ##STR2206##
TABLE 17______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________72 8-(9) 710 700 2.4 3073 8-(14) 705 690 2.5 3574 8-(21) 710 695 2.9 5075 8-(26) 700 685 2.4 4076 8-(30) 700 690 2.5 3577 8-(61) 710 705 3.0 5078 8-(63) 700 690 3.2 5579 8-(66) 710 700 2.8 4080 8-(69) 710 695 2.2 30______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________72 650 150 645 16073 650 150 640 16074 650 150 635 15575 650 150 640 14076 650 150 645 14577 650 150 640 16078 650 150 635 16079 650 150 635 14580 650 150 640 145______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub. 1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________21 8-(1) 700 700 -- 60022 8-(2) 700 700 -- 450______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________21 -- -- -- --22 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 81
The same procedure as in Example 11 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 50,000, a dispersing time was 20 hours, a charge-transporting substance was Compound Example 9-(6), and the weight average molecular weight of a polycarbonate resin was 60,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.5 .mu.m, and that of a charge-transporting layer was 19 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 18.
TABLE 18______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 81 690 680 2.3 30______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 81 V.sub.D 650 645 V.sub.L 150 140______________________________________
EXAMPLES 82 to 90
and
Comparative Examples 23 and 24
The same procedure as in Example 81 was effected except that Compound Example 9-(6) of a charge-transporting substance was replaced with each of Compound Examples 9-(5), 9-(23), 9-(29), 9-(35), 9-(57), 9-(71), 9-(76), 9-(85) and 9-(91), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 19. ##STR2207##
TABLE 19______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________82 9-(5) 710 695 2.3 3083 9-(23) 705 690 3.0 5084 9-(29) 710 695 2.5 3085 9-(35) 700 685 2.3 2586 9-(57) 700 690 2.8 4087 9-(71) 710 705 2.4 3588 9-(76) 700 690 2.2 2089 9-(85) 710 700 2.6 3590 9-(91) 710 700 2.5 35______________________________________ Potential after Durability Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________82 650 150 640 14583 650 150 645 13084 650 150 635 14585 650 150 645 14086 650 150 640 13587 650 150 640 14088 650 150 650 14589 650 150 645 14590 650 150 640 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________23 9-(1) 700 700 -- 65024 9-(2) 700 700 -- 450______________________________________ Potential after Durability Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________23 -- -- -- --24 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 91
The same procedure as in Example 11 was effected except that the amount of oxytitaniumphthalocyanine was 6 g, and a charge-transporting substance was Compound Example 10-(6), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 20.
TABLE 20______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 91 690 680 2.6 30______________________________________ Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 91 V.sub.D 650 650 V.sub.L 150 145______________________________________
EXAMPLES 92 to 100
and
Comparative Examples 25 and 26
The same procedure as in Example 91 was effected except that Compound Example 10-(6) of a charge-transporting substance was replaced with each of Compound Examples 10-(1), 10-(8), 10-(13), 10-(19), 10-(27), 10-(39), 10-(55), 10-(73) and 10-(89), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 21. ##STR2208##
TABLE 22______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________92 10-(1) 710 700 2.5 3093 10-(8) 705 690 2.7 3594 10-(13) 710 695 2.7 3095 10-(19) 700 685 2.3 2596 10-(27) 700 690 2.5 3097 10-(39) 710 705 2.4 2598 10-(55) 700 690 2.2 2099 10-(73) 710 700 3.9 40100 10-(87) 710 695 3.6 50______________________________________ Potential after Durability Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________92 650 150 650 16093 650 150 645 14594 650 150 645 15595 650 150 645 15096 650 150 640 13597 650 150 640 15598 650 150 650 15599 650 150 630 135100 650 150 660 155______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________25 10-(1) 700 700 -- 60026 10-(2) 700 700 -- 580______________________________________ Potential after Durability Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________25 -- -- -- --26 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 101
The same procedure as in Example 11 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 80,000, a charge-transporting substance was Compound Example 11-(2), and the weight average molecular weight of a polycarbonate resin was 50,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.5 .mu.m, and that of a charge-transporting layer was 19 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 22.
TABLE 22______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 101 690 680 3.1 40______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 101 V.sub.D 650 640 V.sub.L 150 645______________________________________
EXAMPLES 102 to 110
and
Comparative Examples 27 to 29
The same procedure as in Example 101 was effected except that Compound Example 11-(2) of a charge-transporting substance was replaced with each of Compound Examples 11-(3), 11-(5), 11-(9), 11-(11), 11-(14), 11-(17), 11-(24), 11-(27) and 11-(30), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 23. ##STR2209##
TABLE 23______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________102 11-(3) 710 700 3.0 50103 11-(5) 705 690 2.7 40104 11-(9) 710 695 2.9 40105 11-(11) 700 685 2.7 30106 11-(14) 700 690 2.6 30107 11-(17) 710 705 2.8 40108 11-(24) 700 690 2.9 45109 11-(27) 710 700 2.7 45110 11-(30) 710 695 3.1 45______________________________________ Potential after Durability Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________102 650 150 640 135103 650 150 640 145104 650 150 645 155105 650 150 635 150106 650 150 655 135107 650 150 640 150108 650 150 660 160109 650 150 645 145110 650 150 650 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________27 11-(1) 700 700 -- 25028 11-(2) 700 690 -- 23029 11-(3) 700 700 -- 230______________________________________ Potential after Durability Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________27 -- -- -- --28 -- -- -- --29 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 111
The same procedure as in Example 11 was effected except that the butyralation degree and the weight average molecular weight of a polyvinylbutyral resin were 68 mol % and 80,000, respectively, the amount of cyclohexanone was 90 ml, a charge-transporting substance was Compound Example 12-(3), and the weight average molecular weight of a polycarbonate resin was 50,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m, and that of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 24.
TABLE 24______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 111 690 680 2.7 40______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 111 V.sub.D 650 655 V.sub.L 150 145______________________________________
EXAMPLES 112 to 120
and
Comparative Examples 30 and 31
The same procedure as in Example 111 was effected except that Compound Example 12-(3) of a charge-transporting substance was replaced with each of Compound Examples 12-(7), 12-(9), 12-(20), 12-(24), 12-(34), 12-(45), 12-(66), 12-(99) and 12-(104), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 25. ##STR2210##
TABLE 25______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________112 12-(7) 710 700 3.0 50113 12-(9) 705 690 2.8 40114 12-(20) 710 695 3.9 55115 12-(24) 700 685 2.3 30116 12-(34) 700 690 3.9 45117 12-(45) 710 705 2.8 40118 12-(66) 700 690 2.6 40119 12-(99) 710 700 2.8 45120 12-(104) 710 695 2.5 35______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________112 650 150 640 160113 650 150 645 145114 650 150 635 165115 650 150 645 150116 650 150 630 130117 650 150 640 155118 650 150 650 155119 650 150 640 150120 650 150 650 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________30 12-(1) 700 700 24.0 28031 12-(2) 700 700 19.0 250______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________30 -- -- -- --31 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potentia was high, and thus measurement or setting was impossible.
EXAMPLE 121
The same procedure as in Example 11 was effected except that the butyralation degree and the weight average molecular weight of a polyvinylbutyral resin were 74 mol % and 60,000, respectively, a charge-transporting substance was Compound Example 13-(4), and the weight average molecular weight of a polycarbonate resin was 100,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.2 .mu.m, and that of a charge-transporting layer was 20 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 26.
TABLE 26______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 121 690 680 3.8 55______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 121 V.sub.D 650 635 V.sub.L 150 145______________________________________
EXAMPLES 122 to 130
and
Comparative Examples 33 and 34
The same procedure as in Example 121 was effected except that Compound Example 13-(4) of a charge-transporting substance was replaced with each of Compound Examples 13-(9), 13-(11), 13-(15), 13-(25), 13-(50), 13-(52), 13-(57), 13-(61) and 13-(65), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 27. ##STR2211##
TABLE 27______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________122 13-(9) 715 705 3.1 50123 13-(11) 705 685 2.8 45124 13-(15) 710 695 3.9 55125 13-(25) 705 690 2.8 40126 13-(50) 700 695 4.3 60127 13-(52) 710 705 3.0 45128 13-(57) 700 695 2.9 40129 13-(61) 710 690 4.2 55130 13-(65) 710 690 4.0 50______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________122 650 150 645 160123 650 150 645 145124 650 150 650 160125 650 150 645 145126 650 150 640 135127 650 150 640 140128 650 150 650 145129 650 150 645 140130 650 150 640 135______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________33 13-(1) 700 700 -- --34 13-(2) 700 700 29.0 310______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________33 -- -- -- --34 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potentia was high, and thus measurement or setting was impossible.
EXAMPLE 131
The same procedure as in Example 11 was effected except that a charge-transporting substance was Compound Example 14-(28), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 28.
TABLE 28______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 131 690 680 2.8 30______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 131 V.sub.D 650 640 V.sub.L 150 145______________________________________
EXAMPLES 132 to 140
and
Comparative Examples 35 and 36
The same procedure as in Example 131 was effected except that Compound Example 14-(28) of a charge-transporting substance was replaced each of with Compound Examples 14-(9), 14-(22), 14-(33), 14-(42), 14-(49), 14-(53), 14-(59), 14-(74) and 14-(89), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 29. ##STR2212##
TABLE 29______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________132 14-(9) 710 700 2.8 30133 14-(22) 705 690 2.7 30134 14-(33) 710 680 3.9 60135 14-(42) 700 685 2.3 20136 14-(49) 700 690 2.6 35137 14-(53) 710 705 2.4 30138 14-(59) 700 690 2.2 25139 14-(74) 710 690 3.5 50140 14-(89) 710 695 2.9 45______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________132 650 150 640 160133 650 150 645 145134 650 150 635 160135 650 150 645 150136 650 150 635 135137 650 150 640 155138 650 150 650 155139 650 150 635 130140 650 150 640 140______________________________________ ComparativeComp. Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________35 14-(1) 700 700 -- 65036 14-(2) 700 700 -- 580______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________35 -- -- -- --36 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potentia was high, and thus measurement or setting was impossible.
EXAMPLE 141
The same procedure as in Example 11 was effected except that the butyralation degree and the weight average molecular weight of a polyvinylbutyral resin were 68 mol % and 35,000, respectively, a charge-transporting substance was Compound Example 15-(8), and the weight average molecular weight of a polycarbonate resin was 25,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.2 .mu.m, and that of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 30.
TABLE 30______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 141 690 685 2.8 40______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 141 V.sub.D 650 655 V.sub.L 150 155______________________________________
EXAMPLES 142 to 150
and
Comparative Examples 37 to 39
The same procedure as in Example 141 was effected except that Compound Example 15-(8) of a charge-transporting substance was replaced with each of Compound Examples 15-(2), 15-(5), 15-(16), 15-(21), 15-(28), 15-(31), 15-(44), 15-(57) and 15-(86), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 31. ##STR2213##
TABLE 31______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________142 15-(2) 710 700 2.7 40143 15-(5) 700 690 3.1 45144 15-(16) 700 695 3.2 50145 15-(21) 700 685 2.5 30146 15-(28) 705 690 3.5 55147 15-(31) 710 700 2.8 50148 15-(44) 710 695 2.9 50149 15-(57) 705 700 2.8 45150 15-(86) 700 690 3.0 40______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________142 650 150 640 140143 650 150 640 145144 650 150 635 160145 650 150 640 150146 650 150 650 155147 650 150 655 160148 650 150 635 150149 650 150 660 155150 650 150 650 145______________________________________ Com-Comp. parativeEx- Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.Rample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________37 15-(1) 705 690 7.6 27038 15-(2) 700 700 -- 55039 15-(3) 700 695 10.9 210______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________37 -- -- -- --38 -- -- -- --39 650 150 580 295______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 151
The same procedure as in Example 11 was effected except that the weight average molecular weight of a polyvinylbutyral resin was 60,000, the amount of cyclohexanone was 90 ml, a dispersing time was 20 hours, a charge-transporting substance was Compound Example 16-(44), its amount was 10 g, the weight average molecular weight of a polycarbonate resin was 65,000, its amount 10 g, and 80 g of a mixture of chlorobenzene (70 parts by weight) and N,N-dimethylformamide (50 parts by weight) was used as a solvent for the charge-transporting layer, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.2 .mu.m, and that of a charge-transporting layer was 16 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shogun in Table 32.
TABLE 32______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 151 701 695 2.5 30______________________________________ Initial Potential after Durability Potential Test of 2,000 Copies (+V) (+V)______________________________________Example 151 V.sub.D 650 641 V.sub.L 150 147______________________________________
EXAMPLES 152 to 162
and
Comparative Example 40 and 42
The same procedure as in Example 151 was effected except that Compound Example 16-(44) of a charge-transporting substance was replaced with each of Compound Examples 16-(5), 16-(9), 16-(15), 16-(23), 16-(34), 16-(43), 16-(45), 16-(50), 16-(57), 16-(65) and 16-(75), to prepare electrophotographic photosensitive members, and these members were then evaluated.
For comparison, the same procedure as in the above-mentioned examples was effected except that the following comparative compounds were used as charge-transporting materials, thereby obtaining electrophotographic photosensitive members, and these members were then evaluated.
The results are shown in Table 33. ##STR2214##
TABLE 33______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________152 16-(5) 701 694 4.2 50153 16-(9) 698 690 5.4 40154 16-(15) 696 690 5.5 40155 16-(23) 700 692 4.0 45156 16-(34) 700 693 3.7 35157 16-(43) 698 687 3.8 30158 16-(45) 696 688 2.5 30159 16-(50) 702 694 2.7 35160 16-(57) 695 690 4.9 40161 16-(65) 696 691 2.1 25162 16-(75) 697 690 2.3 25______________________________________ Potential after DurabilityInitial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________152 650 150 660 169153 650 150 659 170154 650 150 661 165155 650 150 641 160156 650 150 640 149157 650 150 641 148158 650 150 649 150159 650 150 651 149160 650 150 662 169161 650 150 650 148162 650 150 647 145______________________________________ Com-Comp. parativeEx- Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.Rample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________40 16-(1) 700 697 -- 59041 16-(2) 698 690 14.4 29042 16-(3) 698 687 7.6 250______________________________________ Potential after DurabilityComp. Initial Potential Test of 2,000 CopiesExample V.sub.D (+V) V.sub.L (+V) V.sub.D (+V) V.sub.L (+V)______________________________________40 -- -- -- --41 -- -- -- --42 -- -- -- --______________________________________ Note: The symbol "--" means that sensitivity was low and the remaining potential was high, and thus measurement or setting was impossible.
EXAMPLE 163
An aluminum sheet was coated by a Meyer bar with a solution which was prepared by dissolving 5 g of an N-methoxymethylated nylon 6 resin (weight average molecular weight 150,000) and 5 g of an alcohol-soluble copolymerized nylon resin (weight average molecular weight 100,000) in 90 g of methanol, whereby a subbing layer having a dry thickness of 1 .mu.m was formed on the aluminum sheet.
Next, 1 g of a charge-generating substance represented by the formula ##STR2215##
0.5 g of a polyvinylbutyral resin (butyralization degree 70%, and weight average molecular weight 50,000) and 50 g of dioxane were dispersed for 30 hours by means of a ball mill dispersing device. The resultant dispersion, after dilution, was applied onto the above-mentioned subbing layer by blade coating to form a charge-generating layer having a dry thickness of 0.15 .mu.m thereon.
Next, 10 g of Compound Example 1-(38) which was a charge-transporting substance and 15 g of a polymethyl methacrylate resin (weight average molecular weight 70,000) were dissolved in 100 g of monochlorobenzene, and the resultant solution was applied onto the previously formed charge-generating layer by blade coating to form a charge-transporting layer having a dry layer thickness of 14 .mu.m thereon.
The thus prepared photosensitive member was then subjected to corona discharge under +6 KV, and at this time, a surface potential (V.sub.0) was measured. Furthermore, this photosensitive member was allowed to stand in the dark for 1 second, and after the dark decay, a surface potential (V.sub.1) was measured. Sensitivity was evaluated by measuring an exposure (E.sub.1/2) necessary to decay V.sub.1 to 1/2. Further, for remaining potential, a potential where a laser light volume of 100 .mu.J/cm.sup.2 was projected was measured. A light source which was used in this case was a ternary semiconductor laser comprising gallium, aluminum and arsenic (output 5 mW; oscillation wave length 780 nm).
Next, the above-mentioned photosensitive member was set on a remodeled type of NP-9330 made by Canon K.K. which was a reversal development system digital copying machine equipped with the same semiconductor laser as mentioned above, and an actual image forming test was carried out. Setting was made so that a surface potential after primary charging might be +600 V and so that a surface potential after image exposure might be +100 V (exposure 2.0 .mu.J/cm.sup.2), and letters and images were visually evaluated at an early stage of the copying and after 1,000 sheets were copied.
The results are shown in Table 34.
EXAMPLE 164
The same procedure as in Example 163 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 200,000, the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 80,000, the amount of methanol was 100 g, the weight average molecular weight of a polyvinylbutyral resin was 100,000, its amount was 0.7 g, a dispersing time was 20 hours, a charge-transporting substance was Compound Example 2-(18), the weight average molecular weight of a polymethyl methacrylate resin was 80,000, and its amount was 10 g, whereby an electrophotographic photosensitive member was prepared. In this case, the thickness of a charge-generating layer was 0.2 .mu.m and that of a charge-transporting layer was 13 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 163 except that 5,000 sheets were copied.
The results are shown in Table 34.
EXAMPLE 165
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 100,000, the amount of a polyvinylbutyral resin was 1 g, a charge-transporting substance was Compound Example 3-(16), and the weight average molecular weight of a polymethyl methacrylate resin was 40,000, whereby an electrophotographic photosensitive member was prepared. In this case, the thickness of a subbing layer was 0.5 .mu.m, that of a charge-generating layer was 0.3 .mu.m, and that of a charge-transporting layer was 16 .mu.m.
Images and potential characteristics of the photosensitive member thus prepared were evaluated in the same manner as in Example 164 except that exposure was 3.8 .mu.cm.sup.2.
The results are shown in Table 34.
EXAMPLE 166
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 100,000, the weight average molecular weight of a polyvinylbutyral resin was 150,000, a charge-transporting substance was Compound Example 4-(18), and the weight average molecular weight of a polymethyl methacrylate resin was 100,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.4 .mu.m and that of a charge-transporting layer was 16 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 3.2 .mu.J/cm.sup.2.
The results are shown in Table 34.
Example 167
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 150,000, the weight average molecular weight of an alcohol-soluble copolymerized resin was 100,000, the weight average molecular weight of a polyvinylbutyral resin was 80,000, its amount was 0.4 g, and a charge-transporting substance was Compound Example 5-(61), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 0.8 .mu.m, that of a charge-generating layer was 0.3 .mu.m, and that of a charge-transporting layer was 16 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 166.
The results are shown in Table 34.
EXAMPLE 168
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 100,000, its amount was 3 g, a dispersing time was 10 hours, and a charge-transporting substance was Compound Example 6-(121), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 166.
The results are shown in Table 34.
EXAMPLE 169
The same procedure as in Example 164 was effected except that the amount of a polyvinylbutyral resin was 0.5 g and a charge-transporting substance was Compound Example 7-(20), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 0.8 .mu.m, that of a charge-generating layer was 0.3 .mu.m, and that of a charge-transporting layer was 16 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 3.9 .mu.J/cm.sup.2 and 2,000 sheets were copied.
The results are shown in Table 34.
EXAMPLE 170
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 150,000, the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 50,000, the amount of a charge-generating substance was 2 g, the weight average molecular weight of a polyvinylbutyral resin was 150,000, a dispersing time was 10 hours, a charge-transporting substance was Compound Example 8-(18), and the weight average molecular weight of a polymethyl methacrylate resin was 50,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 16 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 3.0 .mu.J/cm.sup.2.
The results are shown in Table 34.
EXAMPLE 171
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 150,000 and a charge-transporting substance was Compound Example 9-(11), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 0.5 .mu.m, that of a charge-generating layer was 0.3 .mu.m, and that of a charge-transporting layer was 16 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 170.
The results are shown in Table 34.
EXAMPLE 172
The same procedure as in Example 164 was effected except that the amount of a polyvinylbutyral resin was 0.4 g, a charge-transporting substance was Compound Example 10-(89), and the amount of a polymethyl methacrylate resin was 13 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m and that of a charge-transporting layer was 16 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 2.5 .mu.J/cm.sup.2.
The results are shown in Table 34.
EXAMPLE 173
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 100,000, the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 50,000, its amount was 7 g, the amount of a polyvinylbutyral resin was 0.4 g, a charge-transporting substance was Compound Example 11-(18), and its amount was 13 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 17 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 2.6 .mu.J/cm.sup.2.
The results are shown in Table 34.
EXAMPLE 174
The same procedure as in Example 164 was effected except that the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 50,000, its amount was 6 g, the weight average molecular weight of a polyvinylbutyral resin was 80,000, a charge-transporting substance was Compound Example 12-(78), and the amount of a polymethyl methacrylate resin was 15 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m and that of a charge-transporting layer was 19 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 4.1 .mu.J/cm.sup.2.
The results are shown in Table 34.
EXAMPLE 175
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 100,000, the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 50,000, the weight average molecular weight of a polyvinylbutyral resin was 150,000, a dispersing time was 10 hours, a charge-transporting substance was Compound Example 13-(26), the weight average molecular weight of a polymethyl methacrylate resin was 50,000, and its amount was 15 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m and that of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 4.5 .mu.J/cm.sup.2.
The results are shown in Table 34.
EXAMPLE 176
The same procedure as in Example 164 was effected except that a charge-transporting substance was Compound Example 14-(19) and the amount of a polymethyl methacrylate resin was 12 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 14 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 2.5 .mu.J/cm.sup.2, and 3,000 sheets were copied.
The results are shown in Table 34.
EXAMPLE 177
The same procedure as in Example 164 was effected except that the weight average molecular weight of an N-methoxymethylated nylon 6 resin was 100,000, the weight average molecular weight of a polyvinylbutyral resin was 50,000, its amount was 0.6 g, the amount of dioxane was 60 g, a charge-transporting substance was Compound Example 15-(14), and the weight average molecular weight of a polymethyl methacrylate resin was 60,000, whereby an electrophotographic photosensitive member was prepared. In this case, the thickness of a charge-generating layer was 0.1 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164 except that an exposure at the time of an image evaluation was 2.0 .mu.J/cm.sup.2.
The results are shown in Table 34.
EXAMPLE 178
The same procedure as in Example 164 was effected except that the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 100,000, the amount of methanol was 80 g, the weight average molecular weight of a polyvinylbutyral resin was 70,000, its amount was 0.6 g, the amount of dioxane was 55 g, a dispersing time was 24 hours, a charge-transporting substance was Compound Example 16-(67), the weight average molecular weight of a polymethyl methacrylate resin was 100,000, and its amount was 9.5 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 177 except that 3,000 sheets were copied.
The results are shown in Table 34.
TABLE 34______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2Example Example (+V) (+V) (.mu.J/cm.sup.2)______________________________________163 1-(38) 670 664 2.7164 2-(18) 700 690 1.9165 3-(16) 700 690 1.9166 4-(18) 700 695 1.8167 5-(61) 700 690 1.8168 6-(121) 700 690 1.8169 7-(20) 700 695 2.3170 8-(18) 700 695 1.8171 9-(11) 700 695 1.8172 10-(89) 700 690 1.7173 11-(18) 700 690 1.8174 12-(78) 700 690 2.6175 13-(26) 700 690 2.8176 14-(19) 700 690 2.2177 15-(14) 700 695 2.0178 16-(67) 680 675 2.1______________________________________ V.sub.R Image EvaluationExample (+V) Early Stage After Copying______________________________________163 45 good good164 50 good good165 40 good good166 40 good good167 40 good good168 50 good good169 45 good good170 55 good good171 40 good good172 50 good good173 50 good good174 50 good good175 55 good good176 50 good good177 40 good good178 55 good good______________________________________
EXAMPLE 179
5 g of oxytitaniumphthalocyanine obtained in accordance with a preparation example disclosed in Japanese Patent Application Laid-open No. 62-67094 (U.S. Pat. No. 4,664,997) was added to a solution prepared by dissolving 3 g of a polyvinylbenzal resin (benzalation degree 75 mol %, weight average molecular weight 150,000) in 100 g of cyclohexanone, and they were then dispersed in a ball mill for 10 hours. The resultant dispersion, after dilution, was applied onto an aluminum sheet by a Meyer bar, followed by drying at 80.degree. C. for 30 minutes, whereby a charge-generating layer having a thickness of 0.1 .mu.m was formed thereon.
Next, 4 g of Compound Example 1-(40) which was a charge-transporting substance and 5 g of a bisphenol Z type polycarbonate resin (weight average molecular weight 35,000) were dissolved in 40 g of monochlorobenzene, and the resultant solution was then applied onto the previously formed charge-generating layer by the Meyer bar, followed by drying at 120.degree. C. for 1 hour, thereby forming a charge-transporting layer having a thickness of 12 .mu.m. The thus prepared photosensitive member was evaluated in the same manner as in Example 163.
The results are shown in Table 35.
EXAMPLE 180
7 g of oxytitaniumphthalocyanine used in Example 179 was added to a solution prepared by dissolving 4 g of a polyvinylbenzal resin (benzalation degree 78 mol %, weight average molecular weight 100,000) in 100 g of cyclohexanone, and they were then dispersed in a ball mill for 48 hours. The resultant dispersion, after diluted, was applied onto an aluminum sheet by a Meyer bar, followed by drying at 90.degree. C. for 30 minutes, whereby a charge-generating layer having a thickness of 0.20 .mu.m was formed thereon.
Next, 5 g of Compound Example 2-(73) which was a charge-transporting substance and 5 g of a bisphenol Z type polycarbonate resin (weight average molecular weight 100,000) were dissolved in 80 g of chlorobenzene, and the resultant solution was then applied onto the previously formed charge-generating layer by the Meyer bar, followed by drying at 140.degree. C. for 1 hour, thereby forming a charge-transporting layer having a thickness of 20 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 164.
The results are shown in Table 35.
EXAMPLE 181
The same procedure as in Example 180 was effected except that the weight average molecular weight of a polyvinylbenzal resin was 120,000, a dispersing time was 20 hours, a drying time for a charge-generating layer was 1 hour, and a charge-transporting substance was Compound Example 3-(76), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.4 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 165.
The results are shown in Table 35.
EXAMPLE 182
The same procedure as in Example 180 was effected except that a dispersing time was 20 hours and a charge-transporting substance was Compound Example 4-(29), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 166.
The results are shown in Table 35.
EXAMPLE 183
The same procedure as in Example 180 was effected except that a dispersing time was 20 hours, a charge-transporting substance was Compound Example 5-(73), and the amount of a polycarbonate resin was 3.5 g, thereby preparing an electrophotographic photosensitive member.
The thus prepared photosensitive member was evaluated in the same manner as in Example 167.
The results are shown in Table 35.
EXAMPLE 184
The same procedure as in Example 180 was effected except that the weight average molecular weight of a polyvinylbenzal resin was 80,000, a dispersing time was 20 hours, and a charge-transporting substance was Compound Example 6-(108), thereby preparing an electrophotographic photosensitive member.
The thus prepared photosensitive member was evaluated in the same manner as in Example 168.
The results are shown in Table 35.
EXAMPLE 185
The same procedure as in Example 180 was effected except that the amount of oxytitaniumphthalocyanine was 8 g, the weight average molecular weight of a polyvinylbenzal resin was 50,000, a dispersing time was 20 hours, a charge-transporting substance was Compound Example 7-(62), the amount of a polycarbonate resin was 7 g, and a drying time for a charge-transporting layer was 30 minutes, thereby preparing an electrophotographic photosensitive member.
The thus prepared photosensitive member was evaluated in the same manner as in Example 169.
The results are shown in Table 35.
EXAMPLE 186
The same procedure as in Example 180 was effected except that a charge-transporting substance was Compound Example 8-(77) and the amount of a polycarbonate resin was 6 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 19 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 170.
The results are shown in Table 35.
EXAMPLE 187
The same procedure as in Example 180 was effected except that a charge-transporting substance was Compound Example 9-(47) and the amount of a polycarbonate resin was 7 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 171.
The results are shown in Table 35.
EXAMPLE 188
The same procedure as in Example 180 was effected except that a dispersing time was 40 hours, a charge-transporting substance was Compound Example 10-(68), the weight average molecular weight of a polycarbonate resin was 80,000, and its amount was 6 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.4 .mu.m and that of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 172.
The results are shown in Table 35.
EXAMPLE 189
The same procedure as in Example 180 was effected except that the amount of a polyvinylbenzal resin was 7 g, a dispersing time was 20 hours, a charge-transporting substance was Compound Example 11-(20), and the amount of a polycarbonate resin was 7 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 173.
The results are shown in Table 35.
EXAMPLE 190
The same procedure as in Example 180 was effected except that a charge-transporting substance was Compound Example 12-(100), thereby preparing an electrophotographic photosensitive member.
The thus prepared photosensitive member was evaluated in the same manner as in Example 174.
The results are shown in Table 35.
EXAMPLE 191
The same procedure as in Example 180 was effected except that the amount of oxytitaniumphthalocyanine was 8 g, the weight average molecular weight of a polyvinylbenzal resin was 80,000, a drying temperature for a charge-generating layer was 120.degree. C., a charge-transporting substance was Compound Example 13-(62), the amount of a polycarbonate resin was 7 g, and a drying time for a charge-transporting layer was 30 minutes, thereby preparing an electrophotographic photosensitive member.
The thus prepared photosensitive member was evaluated in the same manner as in Example 175.
The results are shown in Table 35.
EXAMPLE 192
The same procedure as in Example 180 was effected except that the weight average molecular weight of a polyvinylbenzal resin was 50,000, a dispersing time was 24 hours, a charge-transporting substance was Compound Example 14-(73), thereby preparing an electrophotographic photosensitive member.
The thus prepared photosensitive member was evaluated in the same manner as in Example 176.
The results are shown in Table 35.
EXAMPLE 193
The same procedure as in Example 180 was effected except that a charge-transporting substance was Compound Example 15-(83), the weight average molecular weight of a polycarbonate resin was 50,000, 70 g of chlorobenzene/N,N-dimethylformamide (1 part by weight/1 part by weight) was used as a solvent for a charge-transporting layer, a drying temperature and a drying time for the charge-transporting layer were 130.degree. C. and 2 hours, respectively, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.1 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 178.
The results are shown in Table 35.
EXAMPLE 194
2 g of oxytitaniumphthalocyanine used in Example 179 was added to a solution prepared by dissolving 1 g of a polyvinylbenzal resin (benzalation degree 70 mol %, weight average molecular weight 100,000) in 40 g of cyclohexanone, and they were then dispersed in a ball mill for 48 hours.
The resultant dispersion, after dilution, was applied onto an aluminum sheet by a Meyer bar, followed by drying at 80.degree. C. for 1 hour, whereby a charge-generating layer having a thickness of 0.1 .mu.m was formed thereon.
Next, 5 g of Compound Example 16-(66) which was a charge-transporting substance and 4.5 g of a bisphenol Z type polycarbonate resin (weight average molecular weight 35,000) were dissolved in 40 g of a chlorobenzene (80 parts by weight)/N,N-dimethylformamide (20 parts by weight) solution, and the solution was then applied onto the previously formed charge-generating layer by the Meyer bar, followed by drying at 130.degree. C. for 2 hours, thereby forming a charge-transporting layer having a thickness of 17 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 179.
The results are shown in Table 35.
TABLE 35______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2Example Example (+V) (+V) (.mu.J/cm.sup.2)______________________________________179 1-(40) 685 680 3.6180 2-(73) 700 695 1.8181 3-(76) 700 695 3.0182 4-(29) 700 695 1.6183 5-(73) 700 690 2.2184 6-(108) 700 695 1.8185 7-(62) 700 695 3.2186 8-(77) 700 695 1.5187 9-(47) 700 695 1.5188 10-(68) 700 695 2.1189 11-(20) 700 690 2.3190 12-(100) 700 695 2.3191 13-(62) 700 695 2.2192 14-(73) 700 695 3.1193 15-(83) 705 700 2.3194 16-(66) 685 680 2.0______________________________________ V.sub.R Image EvaluationExample (+V) Early Stage After Copying______________________________________179 60 good good180 50 good good181 50 good good182 45 good good183 50 good good184 45 good good185 60 good good186 50 good good187 40 good good188 40 good good189 60 good good190 35 good good191 55 good good192 45 good good193 55 good good194 50 good good______________________________________
EXAMPLE 195
2 g of a dye represented by the formula ##STR2216## and 4 g of Compound Example 1-(30) which was a charge-transporting substance were mixed with 30 g of a toluene (70 parts by weight)/dioxane (30 parts by weight) solution of a polycarbonate resin (weight average molecular weight 30,000), and they were then dispersed in a ball mill for 15 hours. The resultant dispersant was diluted and then applied onto an aluminum sheet by Meyer bar, followed by drying at 110.degree. C. for 1 hour, whereby a photosensitive member having a thickness of 15 .mu.m was formed thereon.
The thus prepared photosensitive member was evaluated in the same manner as in Example 1.
The results are shown in Table 36.
TABLE 36______________________________________ V.sub.0 V.sub.1 E.sub.1/2 V.sub.R (+V) (+V) (lux .multidot. sec) (+V)______________________________________Example 195 695 690 3.8 60______________________________________ Initial Potential after Durability Potential Test of 1,000 Copies (+V) (+V)______________________________________Example 195 V.sub.D 650 635 V.sub.L 150 136______________________________________
EXAMPLE 196
An aluminum substrate was coated with a 5% methanol solution of an alcohol-soluble copolymerized nylon resin (weight average molecular weight 50,000), so that a subbing layer having a dry thickness of 0.5 .mu.m was formed thereon.
Next, 5 g of a pigment represented by the formula ##STR2217## was dispersed in 50 ml of tetrahydrofuran by means of a sand mill.
Afterward, 5 g of Compound Example 2-(67) which was a charge-transporting substance and 7 g of a polycarbonate resin (weight average molecular weight 50,000) were dissolved in 50 g of a chlorobenzene (70 parts by weight)/dichloromethane (30 parts by weight) solution, and the solution was then added to the previously prepared dispersion, followed by further dispersing for 25 hours by the sand mill.
The dispersion was applied onto the previously formed subbing layer by a Meyer bar and dried so that a dry thickness might be 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 11.
The results are shown in Table 37.
EXAMPLE 197
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 3-(73), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 1.0 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
The results are shown in Table 37.
EXAMPLE 198
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 4-(26), thereby preparing an electrophotographic photosensitive member. Afterward, evaluation was made for this member.
The results are shown in Table 37.
EXAMPLE 199
The same procedure as in Example 196 was effected except that the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 80,000, a charge-transporting substance was Compound Example 5-(86), and a dispersing time was 24 hours, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 1.0 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
The results are shown in Table 37.
EXAMPLE 200
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 6-(67), thereby preparing an electrophotographic photosensitive member. Afterward, evaluation was made for this member.
The results are shown in Table 37.
EXAMPLE 201
The same procedure as in Example 196 was effected except that the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 80,000, a charge-transporting substance was Compound Example 7-(82), and a dispersing time was 10 hours, thereby preparing an electrophotographic photosensitive member. Afterward, evaluation was made for this member.
The results are shown in Table 37.
EXAMPLE 202
The same procedure as in Example 196 was effected except that the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 100,000 and a charge-transporting substance was Compound Example 8-(81), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 1.0 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
EXAMPLE 203
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 9-(55) and a dispersing time was 48 hours, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 0.8 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
The results are shown in Table 37.
EXAMPLE 204
The same procedure as in Example 196 was effected except that the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 70,000 and a charge-transporting substance was Compound Example 10-(55), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 1.0 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
The results are shown in Table 37.
EXAMPLE 205
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 11-(35) and the amount of a polycarbonate resin was 10 g, thereby preparing an electrophotographic photosensitive member. Afterward, evaluation was made for this member.
The results are shown in Table 37.
EXAMPLE 206
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 12-(67) and the weight average molecular weight of a polycarbonate resin was 80,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 0.2 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
The results are shown in Table 37.
EXAMPLE 207
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 13-(67), the weight average molecular weight of a polycarbonate resin was 80,000, and a dispersing time was 15 hours, thereby preparing an electrophotographic photosensitive member. Afterward, evaluation was made for this member.
The results are shown in Table 37.
EXAMPLE 208
The same procedure as in Example 196 was effected except that a charge-transporting substance was Compound Example 14-(68), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 1.0 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
The results are shown in Table 37.
EXAMPLE 209
The same procedure as in Example 196 was effected except that the weight average molecular weight of an alcohol-soluble copolymerized nylon resin was 80,000, a charge-transporting substance was Compound Example 15-(71), the weight average molecular weight of a polycarbonate resin was 35,000, its amount was 10 g, and a dispersing time was 20 hours, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a subbing layer was 1.0 .mu.m and that of the photosensitive member was 19 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 196.
The results are shown in Table 37.
TABLE 37______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________196 2-(67) 700 690 3.8 60197 3-(73) 700 685 3.5 65198 4-(26) 700 690 3.8 65199 5-(86) 700 690 3.2 60200 6-(67) 700 690 3.2 55201 7-(82) 700 690 2.1 55202 8-(81) 700 690 3.5 65203 9-(55) 700 690 3.2 60204 10-(55) 700 690 2.9 60205 11-(35) 700 680 4.0 60206 12-(67) 700 690 3.0 15207 13-(67) 700 690 4.0 65208 14-(68) 700 685 3.8 65209 15-(71) 700 690 3.0 60______________________________________
EXAMPLE 210
10 g of Compound Example 1-(37) which was a charge-transporting substance and 10 g of a polycarbonate resin (weight average molecular weight 30,000) were dissolved in 120 g of monochlorobenzene, and the resultant solution was applied onto an aluminum sheet by a Meyer bar to form a charge-transporting layer having a dry thickness of 12 .mu.m.
Next, 2 g of a pigment used in Example 196 was dispersed in a solution prepared by dissolving 1 g of a butyral resin (butyralization degree 75 mol %) in 40 ml of cyclohexanone for 15 hours by means of a sand mill to obtain a coating liquid.
This coating liquid, after dilution, was applied onto the above-mentioned charge-transporting layer by the Meyer bar so that the dry thickness of a charge-generating layer might be 0.5 .mu.m, whereby the charge-generating layer was formed.
The charging characteristics of the thus prepared electrophotographic photosensitive member were evaluated in the same manner as in Example 1 except that corona charging was carried out under -5 KV.
The results are as follows.
V.sub.0 =-675 V; V.sub.1 =-660 V;
E.sub.1/2 =3.9 lux-sec; V.sub.R =-80 V
EXAMPLE 211
The same procedure as in Example 210 was effected except that a charge-transporting substance was Compound Example 16-(70), the amount of a polycarbonate resin was 9 g, the amount of monochlorobenzene was 90 g, the butyralization degree of a polyvinylbutyral resin was 70 mol %, the amount of cyclohexanone was 45 ml, and a dispersing time was 20 hours, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 15 .mu.m and that of a charge-generating layer was 0.4 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are as follows:
V.sub.R =-60 V; V.sub.0 =-680 V; V.sub.1 =-675 V; E.sub.1/2 =3.7 lux.sec
EXAMPLE 212
5 g of Compound Example 2-(77) which was a charge-transporting substance and 5 g of a polycarbonate resin (weight average molecular weight 80,000) were dissolved in 70 g of chlorobenzene, and the resultant solution was applied onto an aluminum sheet by a Meyer bar to form a charge-transporting layer having a dry thickness of 15 .mu.m.
Next, 2 g of a disazo pigment represented by the formula ##STR2218## was dispersed in 50 ml of a solution prepared by dissolving 1.5 g of a polyvinylbutyral resin (butyralization degree 80 mol %) in 50 ml of cyclohexanone for 20 hours by means of a sand mill to obtain a coating liquid. This coating liquid, after dilution, was applied onto the above-mentioned charge-transporting layer by the Meyer bar so that the dry thickness of a charge-generating layer might be 0.5 .mu.m, whereby the charge-generating layer was formed.
The charging characteristics of the thus prepared electrophotographic photosensitive member were evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 213
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 3-(6), the weight average molecular weight of a polycarbonate resin was 100,000, and the amount of a polyvinylbutyral resin was 1 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 35.
EXAMPLE 214
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 4-(33) and a dispersing time was 50 hours, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 215
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 5-(95), its amount was 3 g, and the weight average molecular weight of a polycarbonate resin was 50,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 20 .mu.m and that of a charge-generating layer was 0.6 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 216
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 6-(15), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 18 .mu.m and that of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 217
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 7-(79), the weight average molecular weight of a polycarbonate resin was 70,000, and its amount was 6 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 20 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 218
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 8-(50), the amount of a polycarbonate resin was 6 g, the butyralation degree of a polyvinylbutyral resin was 75 mol %, and its amount was 0.9 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 20 .mu.m and that of a charge-generating layer was 0.4 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 219
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 9-(88) and the weight average molecular weight of a polycarbonate resin was 100,000, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 12 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 220
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 10-(49), the weight average molecular weight of a polycarbonate resin was 50,000, and the amount of a polyvinylbutyral resin was 2 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 17 .mu.m and that of a charge-generating layer was 0.7 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 221
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 11-(31), the weight average molecular weight of a polycarbonate resin was 50,000, and its amount was 7 g, thereby preparing an electrophotographic photosensitive member.
The results are shown in Table 38.
EXAMPLE 222
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 12-(77), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 223
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 13-(69), the weight average molecular weight of a polycarbonate resin was 100,000, and the amount of a bisazo pigment was 3 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 18 .mu.m and that of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 224
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 14-(75), thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 20 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
EXAMPLE 225
The same procedure as in Example 212 was effected except that a charge-transporting substance was Compound Example 15-(90), the weight average molecular weight of a polycarbonate resin was 35,000, and the amount of a polyvinylbutyral resin was 1 g, thereby preparing an electrophotographic photosensitive member. In this case, the thickness of a charge-transporting layer was 14 .mu.m and that of a charge-generating layer was 0.3 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 210.
The results are shown in Table 38.
TABLE 38______________________________________ Compound V.sub.0 V.sub.1 E.sub.1/2 V.sub.RExample Example (+V) (+V) (lux .multidot. sec) (+V)______________________________________212 2-(77) -700 -680 3.4 -55213 3-(6) -700 -695 2.8 -40214 4-(33) -700 -680 3.2 -40215 5-(95) -700 -670 3.6 -50216 6-(15) -700 -690 2.9 -50217 7-(79) -700 -670 3.5 -45218 8-(50) -700 -690 3.6 -50219 9-(88) -700 -690 3.6 -50220 10-(49) -700 -690 2.9 -45221 11-(31) -700 -680 3.6 -50222 12-(77) -700 -680 3.1 -30223 13-(69) -700 -690 3.1 -45224 14-(75) -700 -685 2.6 -40225 15-(90) -680 -675 3.6 -55______________________________________
EXAMPLE 226
An aluminum substrate was coated with a 5% methanol solution of an alcohol-soluble copolymerized nylon resin (weight average molecular weight 80,000), so that a subbing layer having a dry thickness of 1 .mu.m was formed thereon.
Next, 4 g of a pigment used in Example 212 was dispersed in 45 ml of tetrahydrofuran by means of a sand mill.
Afterward, 5 g of Compound Example 1-(30) which was a charge-transporting substance and 10 g of a polycarbonate resin (weight average molecular weight 25,000) were dissolved in 50 g of a monochlorobenzene (60 parts by weight)/dichloromethane (40 parts by weight) solution, and the solution was then added to the previously prepared dispersion, followed by further dispersing for 3 hours by the sand mill.
The dispersion was applied onto the previously formed subbing layer by a Meyer bar and dried so that a dry thickness might be 18 .mu.m.
The thus prepared photosensitive member was evaluated in the same manner as in Example 1.
The results are as follows.
V.sub.0 =+693 V; V.sub.1 =+687 V;
E.sub.1/2 =4.2 lux.sec; V.sub.R =+75 V
EXAMPLE 227
An aluminum substrate was coated with a 5% methanol solution of an alcohol-soluble copolymerized nylon resin (weight average molecular weight 100,000), so that a subbing layer having a dry thickness of 1 .mu.m was formed thereon.
Next, 4 g of a pigment represented by the formula ##STR2219## was dispersed in 40 ml of tetrahydrofuran by means of a sand mill.
Afterward, 5 g of Compound Example 16-(55) which was a charge-transporting substance and 5 g of a polycarbonate resin (weight average molecular weight 30,000) were dissolved in 45 g of a chlorobenzene (70 parts by weight)/dichloromethane (30 parts by weight) solution, and the solution was then added to the previously prepared dispersion, followed by further dispersing for 10 hours by the sand mill.
The dispersion was applied onto the previously formed subbing layer by a Meyer bar and dried so that a dry thickness might be 17 .mu.m.
The charging characteristics of the thus prepared photosensitive member was evaluated in the same manner as in Example 1.
The results are as follows.
V.sub.0 =+695 V; V.sub.1 =+690 V;
E.sub.1/2 =4.4 lux.sec ; V.sub.R =+65 V

Number	Date	Country
2-180577	Jul 1990	JPX
2-180578	Jul 1990	JPX
2-180579	Jul 1990	JPX
2-181627	Jul 1990	JPX
2-181628	Jul 1990	JPX
2-181629	Jul 1990	JPX
2-181630	Jul 1990	JPX
2-182687	Jul 1990	JPX
2-182688	Jul 1990	JPX
2-182689	Jul 1990	JPX
2-184185	Jul 1990	JPX
2-184186	Jul 1990	JPX
2-184187	Jul 1990	JPX
2-195053	Jul 1990	JPX
2-236998	Sep 1990	JPX
2-273584	Oct 1990	JPX

Number	Name	Date
4066454	Hashimoto	Jan 1978
4072519	Pearson et al.	Feb 1978
4184871	Oba et al.	Jan 1980
4390608	Hashimoto et al.	Jun 1983
4599287	Fujimaki et al.	Jul 1986
4798777	Takiguchi et al.	Jan 1989
4861692	Kuroda et al.	Aug 1989
5034294	Go et al.	Jul 1991
5153085	Akasaki et al.	Oct 1992

Number	Date	Country
144791	Jun 1985	EPX
2265720	Oct 1975	FRX
54-58445	May 1979	JPX
54-151955	Nov 1979	JPX
55-52063	Apr 1980	JPX
58-198043	Nov 1983	JPX
61-75355	Apr 1986	JPX
61-132955	Jun 1986	JPX
61-148159	Jul 1986	JPX
61-239248	Oct 1986	JPX
63-70257	Mar 1988	JPX
63-72664	Apr 1988	JPX
63-85749	Apr 1988	JPX
63-104061	May 1988	JPX
63-174993	Jul 1988	JPX

	Number	Date	Country
Parent	93135	Jul 1993
Parent	727521	Jul 1991

Electrophotographic photosensitive member

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Entry
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