Claims
- 1. An image-forming member for electrophotography which comprises:
- a charge generation layer for generating movable charge carriers upon excitation by electromagnetic waves, said charge generation layer being composed of hydrogenated amorphous silicon,
- a charge transport layer into which charge carriers generated in said charge generation layer can be injected and which transports the injected charge carriers, said charge transport layer being composed of an organic photoconductive material, and
- a substrate suitable for electrophotographic purposes on which said charge generation layer and charge transport layer are overlaid.
- 2. An image-forming member according to claim 1, in which said charge transport layer has a thickness ranging from 5 to 80 microns.
- 3. An image-forming member according to claim 1, further comprising a covering layer having a thickness of 0.5 to 70 microns.
- 4. An image-forming member according to claim 1, in which the content of hydrogen in the charge generation layer is 1 to 40 atomic percent.
- 5. . .Am.!. .Iadd.An .Iaddend.image-forming member according to claim 1, in which said charge generation layer has a thickness of 0.1 to 10 microns.
- 6. An image-forming member for electrophotography which comprises a substrate for electrophotography and a charge generation layer, said charge generation layer being sensitive to electromagnetic waves and having a depletion layer formed by junction of two layers composed of two types of hydrogenated amorphous silicons having different electric properties, said depletion layer acting as a layer generating movable carrier when said layer is subjected to action of electromagnetic waves.
- 7. An image-forming member according to claim 6 in which one layer of said two layers present at the side to which electromagnetic waves are applied is capable of transmitting applied electromagnetic waves in order that a sufficient amount of carriers are generated in the depletion layer.
- 8. An image-forming member according to claim 6, in which at least one end of said depletion layer is present at a depth within 5,000 angstroms in the direction of the layer thickness from the surface of the charge generation layer to which electromagnetic waves are applied.
- 9. An image-forming member according to claim 6, in which each of said two layers has a thickness of 0.1 to 10 microns.
- 10. An image-forming member according to claim 6, in which the value of (NaNd)/(Na+Nd) in the charge generation layer is greater than N cm.sup.-3 and smaller than 10.sup.18 cm.sup.-3, in which Na is a density of an acceptor in the charge generation layer, Nd is a density of a donor in the charge generation layer and N is the number of free dangling . .bond.!. .Iadd.bonds .Iaddend.of Si per unit volume in the charge generation layer.
- 11. An image-forming member according to claim 1 or 6 in which a barrier layer is included between the substrate and the charge generation layer.
- 12. An image-forming member for electrophotography which comprises:
- (a) a charge generation layer of hydrogenated amorphous silicon for generating movable charge carriers upon excitation by electromagnetic waves in which said charge generation layer has a depletion layer, said depletion layer being formed by junction of two layers composed of hydrogenated amorphous silicon, the hydrogenated amorphous silicon of one of the two layers being different from that of the other layer and the two layers each having different electrical properties;
- (b) a charge transport layer into which charge carriers generated in said charge generation layer can be injected and which transports the injected charge carriers, said charge transport layer being composed of an organic photoconductive material, and
- (c) a substrate suitable for electrophotographic purposes on which said charge generation layer and charge transport layer are overlaid.
- 13. An image-forming member according to claim 12, in which at least one side of said depletion layer is present at a depth measured under charged conditions within 5,000 angstroms in the direction of the layer thickness from the surface of the charge generation layer to which the electromagnetic waves are applied.
- 14. An image-forming member according to claim 12, in which the value of (NaNd)/(Na+Nd) in the charge generation layer is greater than N cm.sup.-3 and smaller than 10.sup.18 cm.sup.-3, in which Na is the density of an acceptor in the charge generation layer, Nd is the density of a donor in the charge generation layer and N is the number of free dangling bonds of Si per unit volume in the charge generation layer.
- 15. An image-forming member for electrophotography which comprises a substrate for electrophotography and a charge generation layer, said charge generation layer being sensitive to electromagnetic waves and having a depletion layer formed by the junction of two layers composed of two types of amorphous silicon having different electric properties.
- 16. An image-forming member for electrophotography according to claim 15, in which said charge generation layer contains hydrogen.
- 17. An image-forming member for electrophotography which comprises a substrate suitable for electrophotographic purposes and a charge generation layer, said charge generation layer being sensitive to electromagnetic waves and having a depletion layer formed by the junction of two layers, the layers being composed of hydrogenated amorphous silicon and having different electrical properties, said depletion layer being at a depth to which the electromagnetic waves penetrate, so that the depletion layer is capable of generation movable charge carriers when said layer is subjected to the action of such electromagnetic waves.
- 18. An image-forming member according to claim 17 in which at least one side of said depletion layer is present at a depth measured under charged conditions within 5,000 angstroms in the direction of the layer thickness from the surface of the charge generation layer to which the electromagnetic waves are applied.
- 19. An image-forming member for electrophotography which comprises a substrate suitable for electrophotographic purposes and a charge generation layer, said charge generation layer being sensitive to electromagnetic waves and having a depletion layer formed by the junction of two layers, the layers being composed of hydrogenated amorphous silicon and having different electrical properties, at least one side of said depletion layer being present at a depth measured under charged conditions within 5,000 angstroms in the direction of the layer . .of.!. thickness from the surface of the charge generation layer to which the electromagnetic waves are applied.
- 20. An image-forming member for electrophotography which comprises a substrate suitable for electrophotographic purposes and a charge generation layer, said charge generation layer being sensitive to electromagnetic waves and having a depletion layer formed by the junction of two layers, the layers being composed of hydrogenated amorphous silicon and having different electrical properties, and a covering layer covering the charge generation layer.
- 21. An image-forming member according to claim 20 wherein the covering layer has a thickness from 0.5 to 70 microns.
- 22. An image-forming member according to any one of claims 17 to 21, in which each of said two layers has a thickness of 0.1 to 10 microns.
- 23. An image-forming member according to any one of claims 17 to 21, in which the value of (NaNd)/(Na+Nd) in the charge generation layer is greater than N cm.sup.-3 and smaller than 10.sup.18 cm.sup.-3, in which Na is the density of an acceptor in the charge generation layer, Nd is the density of a donor in the charge generation layer and N is the number of free dangling bonds of Si per unit volume in the charge generation layer.
- 24. An image-forming member according to any one of claims 17 to 21 in which the content of hydrogen in the charge generation layer is one to 50 atomic percent.
- 25. An image-forming member according to any one of claims 17 to 21 including a barrier layer between the substrate and the next adjacent layer and capable of preventing the injection of charge carriers from the substrate when charging is carried out via the substrate.
- 26. An image-forming member for electrophotography which comprises a substrate suitable for electrophotographic purposes and a charge generation layer, said charge generation layer being sensitive to electromagnetic waves and having a depletion layer formed by the junction of two layers, the layers being composed of hydrogenated amorphous silicon and having different electrical properties, and including a barrier layer between the substrate and the next adjacent layer and capable of preventing the injection of charge carriers from the substrate when charging is carried out.
- 27. An image-forming member according to claim 26 wherein the barrier layer is comprised of an insulating inorganic compound.
- 28. An image-forming member according to claim 26 wherein the barrier layer is comprised of an insulating organic compound.
- 29. An image-forming member according to claim 26 wherein the barrier layer is composed of a metal.
- 30. An image-forming member for electrophotography which comprises a substrate suitable for electrophotographic purposes and a charge generation layer, said charge generation layer being sensitive to electromagnetic waves and having a depletion layer formed by the junction of two layers, the layers being composed of hydrogenated amorphous silicon and having different electrical purposes.
- 31. An image-forming member according to claim 30, wherein a doping impurity is incorporated in either one of the two layers in an amount of 15 powers to 19 powers of ten per cubic cm.
- 32. An image-forming member according to claim 30, wherein a P type impurity is incorporated in any one of the two layers.
- 33. An image-forming member according to claim 32, wherein the concentration of the P-type impurity ranges from 15 powers to 19 powers of ten per cubic cm.
- 34. An image-forming member according to claim 30, wherein an N-type impurity is incorporated in either one of the two layers.
- 35. An image-forming member according to claim 34, wherein the concentration of the N-type impurity ranges from 15 powers to 19 powers of ten per cubic cm.
- 36. An image-forming member according to claim 30, wherein either one of the two layers is of P-type.
- 37. An image-forming member according to claim 30, wherein either one of the two layers is of N-type.
- 38. An image-forming member according to claim 30, wherein one of the two layers is of P-type and the other is N-type.
- 39. An image-forming member according to claim 30, wherein the charge generation layer contains from one to 40 atomic percent of hydrogen.
- 40. An image-forming member according to claim 30, wherein the member further comprises a barrier layer.
- 41. An image-forming member according to claim 30, wherein a doping impurity is incorporated in the charge generation layer.
- 42. An image-forming member according to claim 41, wherein the selected impurity is of N-type.
- 43. An image-forming member according to claim 42, wherein the amount of the N-type impurity is from 10.sup.15 to 10.sup.19 per cubic cm.
- 44. An image-forming member according to claim 41, wherein the selected impurity is of P-type.
- 45. An image-forming member according to claim 44, wherein the amount of the P-type impurity is from 10.sup.15 to 10.sup.19 per cubic cm.
- 46. An image-forming member according to claim 41, wherein the selected impurities include N-type and P-type impurities.
- 47. An image-forming member according to claim 46, wherein the amount of the N-type impurity is from 10.sup.15 to 10.sup.19 per cubic cm.
- 48. An image-forming member according to claim 46, wherein the amount of the P-type impurity is from 10.sup.15 to 10.sup.19 per cubic cm.
- 49. An image-forming member according to claim 41, wherein the amount of the selected impurity is from 10.sup.15 to 10.sup.19 per cubic cm.
- 50. An image-forming member for electrophotography according to any of claims 17 to 20, 26, 30 in which said two layers have different semiconductive properties.
- 51. An image-forming member for electrophotography which comprises a substrate suitable for electrophotographic purposes and a charge generation layer, said charge generation layer having two layers, the layers being composed of hydrogenated amorphous silicon and having different semiconductive properties.
- 52. An image-forming member according to claim 30, wherein a doping impurity is incorporated in either one of the two layers.
- 53. An image-forming member according to claim 51, wherein nitrogen is incorporated in either one of the two layers.
- 54. An image-forming member according to claim 52, wherein the selected impurity is a P-type.
- 55. An image-forming member according to claim 52, wherein the selected impurity is an N-type.
- 56. An image-forming member according to claim 52, wherein the impurity is selected from the group consisting of B, Al, Ga, In, Tl, N, P, As, Sb and Bi.
- 57. An image-forming member according to claim 51, wherein nitrogen and one member selected from the group consisting of B, Al, Ga, In and Tl are incorporated in either one of the two layers.
- 58. An image-forming member according to claim 20, wherein the charge generation layer contains nitrogen.
- 59. An image-forming member according to claim 26, wherein the charge generation layer contains nitrogen. .Iadd.
- 60. An electrostatic photocopying machine comprising:
- a printing member including a conductive substrate;
- an hydrogenated amorphous p-type semiconductor layer formed on said conductive substrate;
- an hydrogenated amorphous intrinsic semiconductor layer formed on said p-;i type semiconductor layer in order to induce a built-in electric field across the interface therebetween;
- an insulating layer formed on said intrinsic layer with an external surface to permit the passage of charge photogenerated in said intrinsic layer so that charge on the external surface can be neutralized;
- where the band gaps of the p-type layer and the intrinsic layer are substantially less than the band gap of the insulating layer; and
- where said p-type layer and said intrinsic layer are selected from the group consisting of silicon and silicon with nitrogen;
- means for providing said charge on said external surface of the insulating layer of the printing member;
- means for projecting a light image onto said external surface of said insulating layer to thus form an electrostatic charge image; and
- means for developing the electrostatic charge image to form a visible image pattern on the insulating layer of the printing member. .Iaddend. .Iadd.
- 61. An electrostatic photocopying machine comprising:
- a printing member including
- a conductive substrate;
- an hydrogenated amorphous p-type semiconductor layer formed on said conductive substrate;
- an hydrogenated amorphous intrinsic semiconductor layer formed on said p-type semiconductor layer in order to induce a build-in electric field across the interface therebetween;
- an insulating layer formed on said intrinsic layer with an external surface to permit the passage of charge photogenerated in said intrinsic layer so that charge on the external surface can be neutralized;
- where the band gaps of the p-type layer and the intrinsic layer are substantially less than the band gap of the insulating layer; and
- where said p-type layer, said intrinsic layer, and said insulating layer are selected from the group consisting of silicon, silicon with nitrogen and polyvinylcarbazole;
- means for providing said charge on said external surface of the insulating layer of the printing member;
- means for projecting a light image onto said external surface of said insulating layer to thus form an electrostatic charge image; and
- means for developing the electrostatic charge image to form a visible image pattern on the insulating layer of the printing member. .Iaddend. .Iadd.
- 62. An electrostatic photocopying machine comprising:
- printing member including
- a conductive substrate;
- an hydrogenated amorphous p-type semiconductor layer formed on said conductive substrate;
- an hydrogenated amorphous intrinsic semiconductor layer formed on said p-type semiconductor layer in order to induce a built-in electric field across the interface therebetween;
- an insulating layer formed on said intrinsic layer with an external surface to permit the passage of charge photogenerated in said intrinsic layer so that charge on the external surface can be neutralized;
- where said p-type layer and said intrinsic layer consist essentially of material selected from the group consisting of silicon and silicon with nitrogen;
- means for providing said charge on said external surface of the insulating layer of the printing member;
- means for projecting a light image onto said external surface of said insulating layer to thus form an electrostatic charge image; and
- means for developing the electrostatic charge image to form a visible image pattern on the insulating layer of the printing member. .Iaddend. .Iadd.63. An electrostatic photocopying machine comprising:
- a printing member including
- a conductive substrate;
- an hydrogenated amorphous p-type semiconductor layer formed on said conductive substrate;
- an hydrogenated amorphous intrinsic semiconductor layer formed on said p-type semiconductor layer in order to induce a built-in electric field across the interface therebetween;
- an insulating layer formed on said intrinsic layer with an electric surface to permit the passage of charge photogenerated in said intrinsic layer so that charge on the external surface can be neutralized;
- where said p-type layer, said intrinsic layer, and said insulating layer consist essentially of materials selected from the group consisting of silicon, silicon with nitrogen and polyvinylcarbazole;
- means for providing said charge on said external surface of the insulating layer of the printing member;
- means for projecting a light image onto said external surface of said insulating layer to thus form an electrostatic charge image; and
- means for developing the electrostatic charge image to form a visible image pattern on the insulating layer of the printing member. .Iaddend.
- .Iadd. An electrostatic photocopying machine as in claim 60, 61, 62 or 63 where the band gaps of the p-type layer and the intrinsic layer are equal and the band gap of the i-type layer in turn is substantially less than the band gap of the insulating layer. .Iaddend. .Iadd.65. An electrostatic photocopying machine as in claim 60, 61, 62 or 63 including means for transferring said visible image to a copy member. .Iaddend. .Iadd.66. An electrostatic photocopying machine as in claim 65 where said copy member is copying paper. .Iaddend. .Iadd.67. An electrostatic photocopying machine as in claim 65 including means for cleaning said printing member after the visible image has been transferred to the copy member. .Iaddend. .Iadd.68. An electrostatic photocopying machine as in claim 60, 61, 62 or 63 where said printing member is a drum. .Iaddend. .Iadd.69. A printing member for an electrostatic photocopying machine comprising;
- a conductive substrate;
- an hydrogenated amorphous p-type semiconductor layer formed on said conductive substrate;
- an hydrogenated amorphous intrinsic semiconductor layer formed on said p-type semiconductor layer in order to induce a built-in electric field across the interface therebetween; and
- an insulating layer formed on said intrinsic layer with an external surface to permit the passage of charge photogenerated in said intrinsic layer so that charge on the external surface can be neutralized;
- where the band gaps of the p-type layer and the intrinsic layer are substantially less than the band gap of the insulating layer; and
- where said p-type layer and said intrinsic layer are selected from the group consisting of silicon and silicon with nitrogen. .Iaddend. .Iadd.70. A printing member for an electrostatic photocopying machine comprising:
- a conductive substrate;
- an hydrogenated amorphous p-type semiconductor layer formed on said conductive substrate;
- an hydrogenated amorphous intrinsic semiconductor layer formed on said p-type semiconductor layer in order to induce a built-electric field across the interface therebetween; and
- an insulating layer formed on said intrinsic layer with an external surface to permit the passage of charge photo-generated in said intrinsic layer so that charge on the external surface can be neutralized;
- where the band gaps of the p-type layer and the intrinsic layer are substantially less than the band gap of the insulating layer; and
- where said p-type layer, said intrinsic layer and said insulating layer are selected from the group consisting of silicon, silicon with nitrogen and
- polyvinylcarbazole. .Iaddend. .Iadd.71. A printing drum for an electrostatic photocopying machine comprising:
- a conductive substrate;
- an hydrogenated amorphous p-type semiconductor layer formed on said conductive substrate;
- an hydrogenated amorphous intrinsic semiconductor layer formed on said p-type semiconductor layer in order to induce a built-in electric field across the interface therebetween; and
- an insulating layer formed on said intrinsic layer where the band gaps of the p-type and the intrinsic layer are substantially less than the band gap of an insulating layer formed on said intrinsic layer;
- said insulating layer having an external surface to permit the passage of charge photo-generated in said intrinsic layer so that charge on the external surface can be neutralized;
- where said p-type layer, said intrinsic layer, and said insulating layer consist essentially of materials consisting principally of silicon,
- silicon with nitrogen and polyvinylcarbazole. .Iaddend. .Iadd.72. A printing drum as in claim 71 where the band gaps of the p-type layer and the intrinsic layer are equal. .Iaddend.
Priority Claims (3)
Number |
Date |
Country |
Kind |
53-24628 |
Mar 1978 |
JPX |
|
53-29030 |
Mar 1978 |
JPX |
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53-51851 |
Mar 1979 |
JPX |
|
Parent Case Info
.Iadd.This application is a continuation of prior abd. reissue application Ser. No. 07/633,293 filed on Dec. 24, 1990 of U.S. Pat. No. 4,461,819, issued on application Ser. No. 269,846, filed Jun. 3, 1981, which is a continuation of application Ser. No. 16,986, filed Mar. 2, 1979, now abandoned. .Iaddend.
US Referenced Citations (17)
Foreign Referenced Citations (5)
Number |
Date |
Country |
2855718 |
Jun 1979 |
DEX |
55-29154 |
Mar 1980 |
JPX |
56-25743 |
Mar 1981 |
JPX |
56-64347 |
Jun 1981 |
JPX |
1137803 |
Dec 1968 |
GBX |
Non-Patent Literature Citations (4)
Entry |
Thompson et al., "Sputtered Amorphous Silicon Solar Cells", Proc. Int'l Photovoltaic Solar Energy Conf., Sep. 1977. |
Moustakas, 23 Solid State Comm., pp. 155-158 (1977). |
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Continuations (2)
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Number |
Date |
Country |
Parent |
633293 |
Dec 1990 |
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Parent |
16986 |
Mar 1979 |
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Reissues (1)
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Number |
Date |
Country |
Parent |
269846 |
Jun 1981 |
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