LIQUID CRYSTAL MEDIUM CONTAINING 2,4-DIFLUROPHENYL COMPOUNDS AND USE

CROSS REFERENCE TO RELATED APPLICATIONS

The present application claims priority to Chinese Patent Application No. 201510770281.3, entitled “Liquid Crystal Medium Containing 2,4-Diflurophenyl Compounds and Use,” filed on Nov. 12, 2015. The entire contents of which are hereby incorporated by reference for all purposes.

TECHNICAL FIELD

The present disclosure belongs to the field of liquid crystals, and relates to a liquid crystal medium containing 2,4-diflurophenyl compounds and use thereof.

BACKGROUND ART

Display is a process for converting an electric signal (data information) into a visible light (visual information), where an apparatus completing the display is a man-machine Interface (MMI) and flat panel displays (FPD) are a class of display apparatus which are the most popular currently. A liquid crystal display, (LCD) is a product which is the first developed and commercialized in FPDs. Currently, thin film transistor liquid crystals (TFT-LCD) have become a mainstream product in LCD application.

The development of TFT-LCD has experienced a lengthy stage of fundamental research, and after the realization of a mass production and commercialization, the TFT-LCD products have the advantages such as it being light and thin and environmentally friendly, high performance and the like, such that the size gets larger and larger, and the use becomes more and wider. Whether in a small-sized mobile phone screen, or a large-sized notebook computer (PC) or a monitor, and a large-scaled liquid crystal display television (LCDTV), the TFT-LCDs find application. The early commercial TFT-LCD products are essentially of a twisted nematic (TN) display mode, and the greatest problem is a visual angle not big enough. With the increase in size of the TFT-LCD products, particularly the use of the TFT-LCDs in the TV field, an in-plane switching (IPS) display mode featuring a wide view angle has been developed and applied. The IPS display mode is first published in the paper by the American R. Soref in 1974, and the German G Baur proposes to use the IPS as a wide view angle technique in the TFT-LCDs. In 1995, Japanese HITACHI CORPORATION developed the first 13.3-inch wide view angle TFT-LCD product of an IPS mode in the world. Korean Modern Corporation developed a TFT-LCD product of a fringe field switching (FFS) display mode on the basis of IPS.

The TFT-LCD is a liquid crystal display device with a TFT switch control, and the electrical and optical properties of the liquid crystal directly affect the display effect. Different kinds of liquid crystals have different electrical and optical properties, and different display modes. The performance parameters which have greater influences on the liquid crystal materials used in the TFT-LCDs are an operating temperature range, a driving voltage, a response speed, a contrast ratio, a hue, a tone, a view angle, etc., wherein the driving voltage is greatly influenced by the dielectric constant anisotropy and the elastic coefficient, the viscosity and the elastic coefficient affect the response speed of the liquid crystal materials, and the phase difference and the refractive index anisotropy affect the hue of the liquid crystal display. Those previous cyano-containing compounds cannot satisfy these conditions, and only the fluorine-containing liquid crystal materials can be suitable for making TFT-LCDs.

Furthermore, a liquid crystal molecule cannot achieve all the requirements of the TFT-LCD display, so various liquid crystal molecules must be combined. The various physical property requirements of the liquid crystal material can be achieved by combining various liquid crystal molecules, and these requirements mainly comprise 1) a high stability, 2) a moderate birefringence, 3) a low viscosity, 4) a greater dielectric anisotropy, and 5) a wide temperature range. An ideal storage temperature range is −40° C.-100° C., and in general, in a special use such as a vehicle display, the temperature can be expanded to −40° C.-110° C.

Nowadays, the LCD product technique has become very mature, and successfully solves the technical difficulties such as a view angle, a resolution, a color saturation, brightness, etc., and the display performance thereof has been close to or more than that of CRT displays. The large-sized and medium- and small-sized LCDs have gradually become the dominant products of flat panel displays in respective fields. In order to pursue a higher performance specification, accelerating the response time has become an object pursued by various device manufacturers. In particular, the response time of a liquid crystal is restricted by the rotary viscosity γ1/elastic constant K of a liquid crystal, and therefore, in view of a liquid crystal material, it is required to try to find a method to reduce the rotary viscosity γ1 of a liquid crystal medium, and at the same time, to increase the elastic constant K to reach the purpose of accelerating the response time. However, in an actual research, it is found that the rotary viscosity and the elastic constant are a pair of contradictory parameters, and a reduction of the rotary viscosity will results in an increase of the elastic constant, and as a result, the object for reducing the response time cannot be achieved. The object for accelerating the response time can be achieved by reducing a cell thickness d from a device aspect, which would be very easy to achieve; however, since the delay amount Δnd of a device is fixed, it is required to increase the optical anisotropy An in view of a liquid crystal material in order to reduce the cell thickness d thereof; therefore, in order to achieve the above-mentioned requirements, it is necessary to develop a series of compounds with superior performances to solve the problem that the response time of a liquid crystal display is slow.

SUMMARY OF THE DISCLOSURE

An object of the present disclosure is to provide a liquid crystal medium containing a 2,4-diflurophenyl compound and the use thereof.

The liquid crystal medium containing a 2,4-diflurophenyl compound provided in the present disclosure is a liquid crystal composition, and the liquid crystal composition comprises a component (1) and a component (2);

said component (1) is composed of at least one of the compounds as represented by formula I;
said component (2) is composed of at least one of the compounds as represented by formula II;

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in said formulae I and II,

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are both selected from any one of the following groups:

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each independently represent

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R₁independently represents a linear alkyl having a carbon atom number of 1-7 or a group obtained by replacing at least one —CH₂— in said linear alkyl having a carbon atom number of 1-7 with —O— or —CH═CH—;

and R₂and R₂′ represent a linear alkyl having a carbon atom number of 1-7, an alkoxy having a carbon atom number of 1-7 or a linear alkenyl having a carbon atom number of 2-5.

In particular, in the definitions of said R₁, R₂and R₂′, said linear alkyl having a carbon atom number of 1-7 is particularly a C1, C2, C3, C4, C5, C6 or C7 linear alkyl, or a C1-C6 linear alkyl, or a C1-C5 linear alkyl, or a C1-C4 linear alkyl, or a C1-C3 linear alkyl, or a C1-C2 linear alkyl, or a C2-C5 linear alkyl, or a C2-C4 linear alkyl, or a C2-C3 linear alkyl, or a C3-C5 linear alkyl, or a C3-C4 linear alkyl or a C4-C5 linear alkyl;

said alkoxy having a carbon atom number of 1-7 is particularly a C1, C2, C3, C4, C5, C6 or C7 alkoxy, or a C1-C6 alkoxy, or a C1-C5 alkoxy, or a C1-C4 alkoxy, or a C1-C3 alkoxy, or a C1-C2 alkoxy, or a C2-C5 alkoxy, or a C2-C4 alkoxy, or a C2-C3 alkoxy, or a C3-C5 alkoxy, or a C3-C4 alkoxy or a C4-C5 alkoxy;
said linear alkenyl having a carbon atom number of 2-5 is particularly a C2, C3, C4 or C5 linear alkenyl, or a C2-C5 linear alkenyl, or a C2-C4 linear alkenyl, or a C2-C3 linear alkenyl, or a C3-C5 linear alkenyl, or a C3-C4 linear alkenyl or a C4-C5 linear alkenyl;
in the above-mentioned liquid crystal composition, said component (1) is 1-50 parts, preferably 1-40 parts, and more particularly 1, 2, 5, 6, 8, 10, 12, 15, 17.75, 20, 23, 25, or 35 parts, in part by mass;
and said component (2) is 10-70 parts, preferably 15-60 parts, and more particularly 18, 20, 25, 27, 32, 34, 36, 38, 40, 50, 56, or 57 parts, in part by mass.

In particular, said compound as represented by formula I is selected from any one of the compounds as represented by formulae I-1 to 1-8:

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said compound as represented by formula II is selected from any one of the compounds as represented by formulae II-1 to II-9:

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and in said formulae II-1 to II-9, the definition of R₁is the same as that of the R₁in said formula II.

Said liquid crystal composition further comprises a component (3) having a dielectric anisotropy of >0 or a component (4) having a dielectric anisotropy of <0;

said component (3) is selected from at least one of the compounds as represented by formula III;
said component (4) is selected from at least one of the compounds as represented by Formula IV:

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in said formula III,

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and when o=2,

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is the same or different;

X₃independently represents hydrogen, halogen, an alkyl having a carbon atom number of 1-10, an alkoxy having a carbon atom number of 1-10, an alkenyl having a carbon atom number of 2-10, an alkenyloxy having a carbon atom number of 2-10, a halogenated alkyl having a carbon atom number of 1-5, a halogenated alkoxy having a carbon atom number of 1-5, a halogenated alkenyl having a carbon atom number of 2-5 or a halogenated alkenyloxy having a carbon atom number of 2-5;
G independently represents the following group I, group II or group III:
I. selected from at least one of an alkyl having a carbon atom number of 1-7, an alkoxy having a carbon atom number of 1-7, an alkenyl having a carbon atom number of 2-7 and an alkenyloxy having a carbon atom number of 2-7;
II. groups obtained by replacing at least one hydrogen in said group I with fluorine;
III. selected from at least one of cyclopentyl, cyclobutyl and cyclopropyl;
L₃₁and L₃₂both independently represent —H or —F;
Z₃independently represents —CF₂O—, —CH₂—, —CH₂—CH₂—, —CH₂CF₂—, —COO—, trans-CH═CH—, trans-CF═CF—, —CH₂O— or a single bond;
is 1 or 2;

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Formula IV

in said formula IV, R₄′ independently represents a linear alkyl having a carbon atom number of 1-7 or an alkoxy having a carbon atom number of 1-7;

L₄₁and L₄₂both independently represent —H or —F;

the definition of G is the same as that of the G in said formula III;

Z₄independently represents a single bond, —CH₂CH₂—, —COO— or —CH₂O—;

m is 1 or 2; and

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represents

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and when m=2,

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is the same or different.

In said formula III, in said halogenated alkyl having a carbon atom number of 1-5, said halogenated alkoxy having a carbon atom number of 1-5, said halogenated alkenyl having a carbon atom number of 2-5 or said halogenated alkenyloxy having a carbon atom number of 2-5, the halogenation is halogenation with a halogen atom, particularly fluorination, chlorination or bromination;

in particular, in the definition of said X₃, said alkyl having a carbon atom number of 1-10 is particularly a C1, C2, C3, C4, C5, C6, C7, C8, C9 or C10 alkyl, or a C1-C8 alkyl, or a C1-C6 alkyl, or a C1-C5 alkyl, or a C1-C4 alkyl, or a C1-C3 alkyl, or a C1-C2 alkyl, or a C2-C5 alkyl, or a C2-C4 alkyl, or a C2-C3 alkyl, or a C3-C5 alkyl, or a C3-C4 alkyl or a C4-C5 alkyl;
said alkoxy having a carbon atom number of 1-10 is particularly a C1, C2, C3, C4, C5, C6, C7, C8, C9 or C10 alkoxy, or a C1-C8 alkoxy, or a C1-C6 alkoxy, or a C1-C5 alkoxy, or a C1-C4 alkoxy, or a C1-C3 alkoxy, or a C1-C2 alkoxy, or a C2-C5 alkoxy, or a C2-C4 alkoxy, or a C2-C3 alkoxy, or a C3-C5 alkoxy, or a C3-C4 alkoxy or a C4-C5 alkoxy;
said alkenyl having a carbon atom number of 2-10 is particularly a C2, C3, C4, C5, C6, C7, C8, C9 or C10 alkenyl, or a C2-C5 alkenyl, a C2-C4 alkenyl, or a C2-C3 alkenyl, or a C3-C5 alkenyl, or a C3-C4 alkenyl or a C4-C5 alkenyl;
said alkenyloxy having a carbon atom number of 2-10 is particularly a C2, C3, C4, C5, C6, C7, C8, C9 or C10 alkenyloxy, or a C2-C5 alkenyloxy, a C2-C4 alkenyloxy, or a C2-C3 alkenyloxy, or a C3-C5 alkenyloxy, or a C3-C4 alkenyloxy or a C4-C5 alkenyloxy;
in particular, in the definition of said G, said alkyl having a carbon atom number of 1-7 is particularly a C1, C2, C3, C4, C5, C6 or C7 alkyl, or a C1-C6 alkyl, or a C1-C5 alkyl, or a C1-C4 alkyl, or a C1-C3 alkyl, or a C1-C2 alkyl, or a C2-C5 alkyl, or a C2-C4 alkyl, or a C2-C3 alkyl, or a C3-C5 alkyl, or a C3-C4 alkyl or a C4-C5 alkyl;
said alkoxy having a carbon atom number of 1-7 is particularly a C1, C2, C3, C4, C5, C6 or C7 alkoxy, or a C1-C6 alkoxy, or a C1-C5 alkoxy, or a C1-C4 alkoxy, or a C1-C3 alkoxy, or a C1-C2 alkoxy, or a C2-C5 alkoxy, or a C2-C4 alkoxy, or a C2-C3 alkoxy, or a C3-C5 alkoxy, or a C3-C4 alkoxy or a C4-C5 alkoxy;
said alkenyl having a carbon atom number of 2-7 is particularly a C2, C3, C4, C5, C6 or C7 alkenyl, or a C2-C5 alkenyl, or a C2-C4 alkenyl, or a C2-C3 alkenyl, or a C3-C5 alkenyl, or a C3-C4 alkenyl or a C4-C5 alkenyl;
said alkenyloxy having a carbon atom number of 2-7 is particularly a C2, C3, C4, C5, C6 or C7 alkenyloxy, or a C2-C5 alkenyloxy, or a C2-C4 alkenyloxy, or a C2-C3 alkenyloxy, or a C3-C5 alkenyloxy, or a C3-C4 alkenyloxy or a C4-C5 alkenyloxy;
in the definition of said G said alkoxy having a carbon atom number of 1-7 is particularly a C1, C2, C3, C4, C5, C6 or C7 alkoxy, or a C1-C6 alkoxy, or a C1-C5 alkoxy, or a C1-C4 alkoxy, or a C1-C3 alkoxy, or a C1-C2 alkoxy, or a C2-C5 alkoxy, or a C2-C4 alkoxy, or a C2-C3 alkoxy, or a C3-C5 alkoxy, or a C3-C4 alkoxy or a C4-C5 alkoxy;
said linear alkenyl having a carbon atom number of 2-5 is particularly a C2, C3, C4 or C5 linear alkenyl, or a C2-C5 linear alkenyl, or a C2-C4 linear alkenyl, or a C2-C3 linear alkenyl, or a C3-C5 linear alkenyl, or a C3-C4 linear alkenyl or a C4-C5 linear alkenyl;
in the definition of R4′ in said formula IV, said linear alkyl having a carbon atom number of 1-7 is particularly a C1, C2, C3, C4, C5, C6 or C7 linear alkyl, or a C1-C6 linear alkyl, or a C1-C5 linear alkyl, or a C1-C4 linear alkyl, or a C1-C3 linear alkyl, or a C1-C2 linear alkyl, or a C2-C5 linear alkyl, or a C2-C4 linear alkyl, or a C2-C3 linear alkyl, or a C3-C5 linear alkyl, or a C3-C4 linear alkyl or a C4-C5 linear alkyl;
said alkoxy having a carbon atom number of 1-7 is particularly a C1, C2, C3, C4, C5, C6 or C7 alkoxy, or a C1-C6 alkoxy, or a C1-C5 alkoxy, or a C1-C4 alkoxy, or a C1-C3 alkoxy, or a C1-C2 alkoxy, or a C2-C5 alkoxy, or a C2-C4 alkoxy, or a C2-C3 alkoxy, or a C3-C5 alkoxy, or a C3-C4 alkoxy or a C4-C5 alkoxy;
in particular, said compound as represented by formula III is selected from at least one of the compounds as represented by formulae III-1 to III-46:

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in said formulae III-1 to III-46, the definitions of X₃, G and (F) are all the same as the definitions in said formula III; and

said compound as represented by formula IV is selected from at least one of the compounds as represented by formulae IV-1 to IV-12:

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in said formulae IV-1 to IV-12, the definitions of G and R₄′ are both the same as the definitions in said formula IV.

The above-mentioned liquid crystal composition consists of the above-mentioned component (1), component (2), component (3) or/and component (4);

said component (1) is 1-50 parts, preferably 1-40 parts, and more particularly 1, 2, 5, 6, 8, 10, 12, 15, 17.75, 20, 23, 25, or 35 parts, in part by mass;
and said component (2) is 10-70 parts, preferably 15-60 parts, and more particularly 18, 20, 25, 27, 32, 34, 36, 38, 40, 50, 56, or 57 parts, in part by mass.
said component (3) is 0.1-70 parts, preferably 0.2-65 parts, and particularly 0.25, 9, 30, 46, 49, 58 or 62 parts, in part by mass;
and said component (4) is 30-75 parts, preferably 35-70 parts, and particularly 41, 43, 48, 51, 53 or 65 parts, in part by mass.

Said liquid crystal composition can further comprise a component (5);

said component (5) is selected from at least one of the compounds as represented by formula V;

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in said formula V, the definition of G is the same as that of the G in said formula III;

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each independently represent

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and when q or s=2,

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are the same or different;

q and s independently represent 1 or 2, and when q and s are different, q represents 1;
R₅′ independently represents a linear alkyl having a carbon atom number of 1-7 or an alkoxy having a carbon atom number of 1-7; and
Z₅independently represents —CH₂—CH₂—, —COO—, trans-CH═CH—, —CH₂O— or a single bond.

The above-mentioned liquid crystal composition can also consist of the above-mentioned component (1), component (2), component (3) and component (5), or consist of the above-mentioned component (1), component (2), component (4) and component (5), or consist of the above-mentioned component (1), component (2), component (3), component (4) and component (5);

said component (1) is 1-50 parts, preferably 1-40 parts, and more particularly 1, 2, 5, 6, 8, 10, 12, 15, 17.75, 20, 23, 25, or 35 parts, in part by mass;
and said component (2) is 10-70 parts, preferably 15-60 parts, and more particularly 18, 20, 25, 27, 32, 34, 36, 38, 40, 50, 56, or 57 parts, in part by mass.
said component (3) is 0.1-70 parts, preferably 0.2-65 parts, and particularly 0.25, 9, 30, 46, 49, 58 or 62 parts, in part by mass;
and said component (4) is 30-75 parts, preferably 35-70 parts, and particularly 41, 43, 48, 51, 53 or 65 parts, in part by mass.
said component (5) is 1-30 parts, preferably 1-25 parts, in part by mass.

Said liquid crystal composition can further comprise an additive; said additive is selected from at least one of a UV stabilizer, an antioxidant, a chiral dopant and a polymerization initiator; and said additive is used in an amount of 0.01%-0.5% of the mass of the liquid crystal composition consisting of components (1) to (5).

Most particularly, the above-mentioned liquid crystal composition provided in the present disclosure can be any one of the following liquid crystal compositions a to o:

said liquid crystal composition a comprises or consists of the following various components in parts by mass:
said liquid crystal composition a particularly comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
8

3CB(3F)BC3
5

3CCV1
6

3CCV
51

3BB(3F)B(3F,5F)QB(3F,4F,5F)
6

4BB(3F)B(3F,5F)QB(3F,4F,5F)
6

3BB(3F)B(3F,5F)2V
12

5BB(3F)B(3F,5F)QB(3F,4F,5F)
6

said liquid crystal composition b comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
3-8

3CCV
15-20

VCCB1
5-10

1BCC2V
5-10

3CCB(3F,4F,5F)
10-15

5CCB(3F,4F,5F)
10

3CBB(3F,4F,5F)
3-8

3CCBB(3F,4F,5F)
3-8

2CCBB(3F,4F,5F)
3-8

3CCB(3F)B(3F,4F,5F)
3-8

H(5)BB(3F,5F)QB(3F,4F,5F)
28-22

said liquid crystal composition b particularly comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
5

3CCV
18

VCCB1
8

1BCC2V
7

3CCB(3F,4F,5F)
12

5CCB(3F,4F,5F)
10

3CBB(3F,4F,5F)
5

3CCBB(3F,4F,5F)
5

2CCBB(3F,4F,5F)
5

3CCB(3F)B(3F,4F,5F)
5

H(5)BB(3F,5F)QB(3F,4F,5F)
20;

said liquid crystal composition c comprises or consists of the following various components in parts by mass:

3CCB(2F,4F)
3-8

3BBB(2F,4F)
5-10

3CBB(2F,4F)
1-5

3CCV
28-33

3CC4
8-13

3CCBOCF₃
3-8

3CCBB(3F,4F,5F)
5-10

2CCBB(3F,4F,5F)
5-10

H(5)BB(3F,5F)QB(3F,4F,5F)
18-23

H(5)BB(3F)B(3F,5F)QB(3F,4F,5F)
5-10

said liquid crystal composition c particularly comprises or consists of the following various components in parts by mass:

3CCB(2F,4F)
5

3BBB(2F,4F)
8

3CBB(2F,4F)
2

3CCV
30

3CC4
10

3CCBOCF₃
5

3CCBB(3F,4F,5F)
6

2CCBB(3F,4F,5F)
6

H(5)BB(3F,5F)QB(3F,4F,5F)
20

H(5)BB(3F)B(3F,5F)QB(3F,4F,5F)
8

said liquid crystal composition d comprises or consists of the following various components in parts by mass:

3CCB(2F,4F)
1-5

1OCCB(2F,4F)
1-5

3CBB(2F,4F)
1-5

3CCV
20

3CBO2
1-5

3CC5
3-8

3CCB(4F,5F)
5-10

4CCB(4F,5F)
5-10

5CCB(4F,5F)
5-10

3CBB(4F,5F)
3-8

5CBB(4F,5F)
3-8

H(3)1BB(3F,5F)QB(3F,4F,5F)
18-23

H(3)1CCBB(3F,4F,5F)
5-10

3CB(3F)BC3
1-5

3CBBC3
1-5

said liquid crystal composition d particularly comprises or consists of the following various components in parts by mass:

3CCB(2F,4F)
4

1OCCB(2F,4F)
4

3CBB(2F,4F)
4

3CCV
20

3CBO2
2

3CC5
5

3CCB(4F,5F)
7

4CCB(4F,5F)
7

5CCB(4F,5F)
7

3CBB(4F,5F)
5

5CBB(4F,5F)
5

H(3)1BB(3F,5F)QB(3F,4F,5F)
20

H(3)1CCBB(3F,4F,5F)
7

3CB(3F)BC3
1.5

3CBBC3
1.5

said liquid crystal composition e comprises or consists of the following various components in parts by mass:

3BBB(2F,4F)
5-10

5BBB(2F,4F)
5-10

3OBBB(2F,4F)
1-5

1OBBB(2F,4F)
1-5

3CCV
40

3CCV1
5-10

1BBEV1
1-5

H(5)BBB(3F)B(3F,4F,5F)
1-5

3CCB(3F)B(3F,4F,5F)
5-10

H(5)BB(3F,5F)QB(3F,4F,5F)
10-15

H(5)BB(3F) B(3F,5F)QB(3F,4F,5F)
8-13

said liquid crystal composition e particularly comprises or consists of the following various components in parts by mass:

3BBB(2F,4F)
6

5BBB(2F,4F)
6

3OBBB(2F,4F)
4

1OBBB(2F,4F)
4

3CCV
40

3CCV1
6

1BBEV1
4

H(5)BBB(3F)B(3F,4F,5F)
1

3CCB(3F)B(3F,4F,5F)
6

H(5)BB(3F,5F)QB(3F,4F,5F)
13

H(5)BB(3F) B(3F,5F)QB(3F,4F,5F)
10

said liquid crystal composition f comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
5-10

3CCB(2F,4F)
5-10

3CPB(2F,4F)
5-10

5CC(2F,4F)
5-10

5CCV
13-18

3CCV1
3-8

2CCB(3F,4F,5F)
1-5

3BB(3F,5F)Q B(3F,4F,5F)
13-18

3CCQB(3F,4F,5F)
5-10

3BB(3F) B(3F,4F,5F)
3-8

3CC B(3F) B(3F,4F,5F)
5-10

3BB(3F) B(3F,5F)Q B(3F,4F,5F)
1-5

4BB(3F) B(3F,5F)Q B(3F,4F,5F)
1-5

3BBB(3F)B(3F,4F,5F)
1-5

VCCB1
3-8

5CBF
1-5

said liquid crystal composition f particularly comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
7

3CCB(2F,4F)
6

3CPB(2F,4F)
6

5CC(2F,4F)
6

5CCV
15

3CCV1
5

2CCB(3F,4F,5F)
3

3BB(3F,5F)Q B(3F,4F,5F)
15

3CCQB(3F,4F,5F)
7

3BB(3F) B(3F,4F,5F)
5

3CC B(3F) B(3F,4F,5F)
6

3BB(3F) B(3F,5F)Q B(3F,4F,5F)
4

4BB(3F) B(3F,5F)Q B(3F,4F,5F)
4

3BBB(3F)B(3F,4F,5F)
2

VCCB1
5

5CBF
4

said liquid crystal composition g comprises or consists of the following various components in parts by mass:

3BBB(2F,4F)
8-13

4BBB(2F,4F)
8-13

5BBB(2F,4F)
8-13

2OBBB(2F,4F)
3-8

3CCV
50-55

3CCV1
1-5

1BBEV1
1-5

H(5)BB(3F,5F)QB(3F,4F,5F)
1-5

H(5)H[3O]BB(3F,5F)QB(3F,4F,5F)
1-5

H(5)BBB(3F)B(3F,4F,5F)
1-5

said liquid crystal composition g particularly comprises or consists of the following various components in parts by mass:

3BBB(2F,4F)
10

4BBB(2F,4F)
10

5BBB(2F,4F)
10

2OBBB(2F,4F)
5

3CCV
51

3CCV1
3

1BBEV1
2

H(5)BB(3F,5F)QB(3F,4F,5F)
3

H(5)H[3O]BB(3F,5F)QB(3F,4F,5F)
3

H(5)BBB(3F)B(3F,4F,5F)
3

said liquid crystal composition h comprises or consists of the following various components in parts by mass:

3CBB(2F,4F)
2

VCCB1
2

3BB(2F)B1H(3)
7

3CCV
40

3CCBB(3F,4F)
3

5CCBB(3F,4F)
3

H(5)CBB(3F,5F)QB(3F,4F,5F)
5

H(5)BB(3F,5F)QB(3F,4F,5F)
20

H(5)BB(3F)B(3F,5F)QB(3F,4F,5F)
6

H(5)H[3O]BB(3F,5F)QB(3F,4F,5F)
6

H(5)H[3O,5O]B(3F,5F)QB(3F,4F,5F)
3

H(5)BBB(3F)B(3F,4F,5F)
3

said liquid crystal composition h particularly comprises or consists of the following various components in parts by mass:

said liquid crystal composition i comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
5-10

3BBB(2F,4F)
5-10

3CCV
25-30

3CCV1
1-5

3CB(3F)BC3
1-5

3C1OB(2F,3F)O2
3-8

3CC1OB(2F,3F)O2
8-13

2CC1OB(2F,3F)O2
8-13

5CC1OB(2F,3F)O2
8-13

H(5)C1OB(2F,3F)O2
10-15

H(5)BBB(3F)B(3F,4F,5F)
1-5

said liquid crystal composition i particularly comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
9

3BBB(2F,4F)
8.75

3CCV
28

3CCV1
4

3CB(3F)BC3
2

3C1OB(2F,3F)O2
5

3CC1OB(2F,3F)O2
10

2CC1OB(2F,3F)O2
10

5CC1OB(2F,3F)O2
10

H(5)C1OB(2F,3F)O2
13

H(5)BBB(3F)B(3F,4F,5F)
0.25

said liquid crystal composition j comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
8-13

3BBB(2F,4F)
8-13

3CBB(2F,4F)
1-5

5CBB(2F,4F)
1-5

3CBO2
1-5

2CC3
18-23

4CC3
5-10

5CC3
5-10

3CBB(2F,3F)O2
5-10

2CBB(2F,3F)O2
5-10

H(5)C1OB(2F,3F)O2
8-13

3C1OB(2F,3F)O2
5-10

H(5)BB(2F,3F)O2
3-8

said liquid crystal composition j particularly comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
10

3BBB(2F,4F)
5

3CBB(2F,4F)
4

5CBB(2F,4F)
4

3CBO2
4

2CC3
20

4CC3
6

5CC3
6

3CBB(2F,3F)O2
9

2CBB(2F,3F)O2
9

H(5)C1OB(2F,3F)O2
10

3C1OB(2F,3F)O2
8

H(5)BB(2F,3F)O2
5

said liquid crystal composition k comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
1-5

3CBB2
5-10

5CBB2
5-10

3CB(3F)BC3
1-5

5BB1
5-10

2CC3
18-23

4CC3
5-10

5CC3
5-10

3CC1OB(2F,3F)O2
10-15

2CC1OB(2F,3F)O2
10-15

3BB(2F,3F)O2
10-15

2C1OB(2F,3F)O2
5-10

said liquid crystal composition k particularly comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
2

3CBB2
8

5CBB2
8

3CB(3F)BC3
1

5BB1
6

2CC3
20

4CC3
6

5CC3
6

3CC1OB(2F,3F)O2
12

2CC1OB(2F,3F)O2
12

3BB(2F,3F)O2
13

2C1OB(2F,3F)O2
6

said liquid crystal composition l comprises or consists of the following various components in parts by mass:

5CCB(2F,4F)
3-8

3CBB2
3-8

5CBB2
3-8

2CC3
18-23

3CBO2
3-8

3CBB(2F,3F)O2
5-10

2CBB(2F,3F)O2
5-10

3CCB(2F,3F)O2
5-10

5CCB(2F,3F)O2
5-10

3CB(2F,3F)O4
13-18

5CB(2F,3F)O4
13-18

said liquid crystal composition l particularly comprises or consists of the following various components in parts by mass:

5CCB(2F,4F)
5

3CBB2
5

5CBB2
5

2CC3
20

3CBO2
5

3CBB(2F,3F)O2
9

2CBB(2F,3F)O2
9

3CCB(2F,3F)O2
6

5CCB(2F,3F)O2
6

3CB(2F,3F)O4
15

5CB(2F,3F)O4
15

said liquid crystal composition m comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
8-12

3CBB2
3-8

3CCV
30-35

3CC1OB(2F,3F)O2
10-15

2CC1OB(2F,3F)O2
10-15

5CC1OB(2F,3F)O2
3-8

H(5)CBB(2F,3F)O2
5-10

H(5)BB(2F,3F)O2
3-8

H(5)C1OB(2F,3F)O2
10-15

said liquid crystal composition m particularly comprises or consists of the following various components in parts by mass:

5BBB(2F,4F)
10

3CBB2
5

3CCV
32

3CC1OB(2F,3F)O2
12

2CC1OB(2F,3F)O2
12

5CC1OB(2F,3F)O2
5

H(5)CBB(2F,3F)O2
7

H(5)BB(2F,3F)O2
5

H(5)C1OB(2F,3F)O2
12

said liquid crystal composition n comprises or consists of the following various components in parts by mass:

3CCB(2F,4F)
1

3CCV1
8

5CB3
2

5CC3
2

1BBEV1
2

3CCV
20

3CCB(2F,3F)O2
5

3CPB(2F,3F)O2
3

1VCCB(2F,3F)O2
5

2CBB(2F,3F)O2
9

3CBB(2F,3F)O2
9

3BB(2F,3F)O2
15

3CB(2F,3F)O2
15

4CBB(2F,3F)O2
4

said liquid crystal composition n particularly comprises or consists of the following various components in parts by mass:

3CCB(2F,4F)
1

3CCV1
8

5CB3
2

5CC3
2

1BBEV1
2

3CCV
20

3CCB(2F,3F)O2
5

3CPB(2F,3F)O2
3

1VCCB(2F,3F)O2
5

2CBB(2F,3F)O2
9

3CBB(2F,3F)O2
9

3BB(2F,3F)O2
15

3CB(2F,3F)O2
15

4CBB(2F,3F)O2
4

said liquid crystal composition o comprises or consists of the following various components in parts by mass:

3CPB(2F,4F)
1-5

3 3H[3O]BB(2F,4F)
1-5

3CCV1
3-8

5CB3
1-5

5CC3
5-10

2CC3
15-20

4CC3
5-10

3CBO2
1-5

3CC1OB(2F,3F)O2
10-15

2CC1OB(2F,3F)O2
10-15

3CB(2F,3F)EB(2F,3F)O2
1-5

H(5)CB(2F,3F)O2
5-10

H(5)C1OB(2F,3F)O2
5-10

2BB(2F,3F)B4
5-10

2BB(2F,3F)B3
5-10

and said liquid crystal composition o particularly comprises or consists of the following various components in parts by mass:

3CPB(2F,4F)
3

3 3H[3O]BB(2F,4F)
3

3CCV1
5

5CB3
3

5CC3
7

2CC3
19

4CC3
7

3CBO2
2

3CC1OB(2F,3F)O2
11

2CC1OB(2F,3F)O2
11

3CB(2F,3F)EB(2F,3F)O2
3

H(5)CB(2F,3F)O2
7

H(5)C1OB(2F,3F)O2
7

2BB(2F,3F)B4
6

2BB(2F,3F)B3
6.

Furthermore, the use of the above-mentioned liquid crystal composition provided in the present disclosure in the preparation of an active matrix display element and an active matrix display element comprising the above-mentioned liquid crystal composition also falls within the scope of protection of the present disclosure.

The liquid crystal medium provided in the present disclosure has excellent performance and an optical anisotropy within a range of 0.080-0.150, and has a wide nematic temperature range, a low rotary viscosity, a relatively fast response time and good chemical, light and thermal stability; the liquid crystal medium contains one or more compounds with a 2,4-diflurophenyl, and the compound has good normal temperature miscibility at a low temperature and chemical and thermal stability, is very suitable for manufacturing a liquid crystal display element, and especially an active matrix display element, such as an active matrix display in a TN, FFS or IPS mode. The performance parameters required for a display are achieved by the compounds of general formulae I and II in the present disclosure, with optimizing a combination and optimizing a ratio, and additionally using other several or even dozens of characteristic liquid crystal compounds to mix, and as a result, the display has the features, such as a low viscosity, an appropriate cleaning point, good chemical and thermal stability, etc., and thus, a new liquid crystal display material with excellent performances is developed.

PARTICULAR EMBODIMENTS

The present disclosure is further described as below in combination with particular embodiments, but the present disclosure is not limited to the following embodiments. Said methods, if not otherwise indicated, are all conventional methods. Said raw materials, if not otherwise indicated, can all be available through public commercial approaches.

The parts involved in the following embodiments are all weight percentage contents, the unit of temperature is ° C., and the particular meanings of other symbols and test conditions are as follows:

S-N represents the melting point (° C.) of the liquid crystal from a crystal state to a nematic phase;

Cp represents the clearing point of a liquid crystal (° C.), Test instrument: a Mettler-Toledo-FP System microscopic thermal analyzer;

γ1 is the rotary viscosity (mPa·s), and the test conditions are 25° C., INSTEC:ALCT-IR1, and a 20 micron parallel cell or a 18 micron perpendicular cell;

K₁₁is the twisted elastic constant, K₃₃is the splay elastic constant, and the test conditions are 25° C., INSTEC:ALCT-IR1, and a 20 micron parallel cell or a 18 micron perpendicular cell;

Δε represents the dielectric anisotropy, Δε=ε_//−ε_⊥, wherein ε_//is a dielectric constant parallel to a molecular axis, and ε_⊥ is a dielectric constant perpendicular to the molecular axis, and the test conditions are 25° C., INSTEC:ALCT-IR1, and a 20 micron parallel cell or a 18 micron perpendicular cell;

and Δn represents the optical anisotropy, Δn=n_o−n_e, wherein n_ois the refractive index of an ordinary light, and n_eis the refractive index of an extraordinary light, and the test conditions are 589 nm, and 25±0.2° C.

The liquid crystal mediums are prepared by weighting the liquid crystal compounds at a ratio, respectively, in the following examples 1-15. The various liquid crystal monomers used can all be synthesized by commonly known methods or obtained by commercial approaches.

The apparatus and instruments used for preparing the liquid crystal medium are:

(1) an electronic precision balance (accuracy: 0.1 mg)

(2) a stainless steel beaker: for weighting a liquid crystal

(3) a spoon: for adding a monomer

(4) a magnetic rotor: for stirring, and

(5) a temperature-controlled electromagnetic stirrer.

A method for preparing the liquid crystal medium comprises the following steps:

(1) putting the monomers used in order according to a sequence;

(2) placing the stainless steel beaker on the balance, and adding a monomer into the stainless steel beaker using a small spoon;

(3) successively adding monomer liquid crystals in a required weight;

(4) placing the charged stainless steel beaker on the magnetic stirring instrument to heat and melt; and

(5) after most of the mixture in the stainless steel beaker melting, adding a magnetic rotor into the stainless steel beaker, uniformly mixing the liquid crystal mixture, and cooling to room temperature to obtain the liquid crystal medium.

In the liquid crystal monomer structures represented by codes in the present disclosure, the code representation method for the liquid crystal ring structures, terminal groups and linking groups are shown in tables 1 and 2.

TABLE 1

Corresponding code for the ring structure

Ring structure
Corresponding code

embedded image

B(3F)

B(3F,5F)

B(2F)

B(2F,3F)

H[3O]

H[3O,5O]

TABLE 2

Corresponding code for the terminal group and linking group

Terminal group and linking

group
Corresponding code

C_nH_2n+1—
n-

C_nH_2n+1O—
nO—

—OCF₃
—OCF₃

—CF₂O—
—Q—

—F
—F

—CN
—CN

—CH₂CH₂—
—E—

—CH═CH—
—V—

—C≡C—
—W—

—COO—
—COO—

—CH═CH—C_nH_2n+1
Vn-

embedded image

H(5)—

H(4)—

H(3)—

For example:

embedded image

has a corresponding code of H(5)CCV1;

and

embedded image

has a corresponding code of 3B B(3F) B(3F,5F)Q B(3F,4F,5F).

The various components shown in tables 1-15 are mixed uniformly, respectively, to obtain liquid crystal composition a to composition o provided in the present disclosure successively.

In addition, the obtained liquid crystal composition a to composition o are filled between two substrates of a liquid crystal display for performing a performance test, respectively, and the test results of the performance parameters of the obtained liquid crystal compositions are all listed in the corresponding tables.

TABLE 1

The proportions of the components of the liquid crystal composition a

obtained in example 1 and the performance parameters thereof

weight

compound

percentage

general
structural formula of liquid
content
performance

formula
crystal
(%)
parameters

III
5BBB(2F,4F)
8
S-N: ≦−40° C.

III
3CB(3F)BC3
5
Cp: 75° C.

III
3CCV1
6
γ₁: 55 mPa · s

III
3CCV
51
Δn: 0.110

III
3BB(3F)B(3F,5F)QB(3F,4F,5F)
6
n_e: 1.595

III
4BB(3F)B(3F,5F)QB(3F,4F,5F)
6
Δε: 5.1

III
3BB(3F)B(3F,5F)2V
12
ε_⊥: 3.0

III
5BB(3F)B(3F,5F)QB(3F,4F,5F)
6
K₁/K₃:

12.8/13.3

TABLE 2

The proportions of the components of the liquid crystal composition b

obtained in example 2 and the performance parameters thereof

weight

compound

percentage

general
structural formula of liquid
content
performance

formula
crystal
(%)
parameters

III
5BBB(2F,4F)
5
S-N: ≦−40° C.

III
3CCV
18
Cp: 95° C.

III
VCCB1
8
γ₁: 112 mPa · s

III
1BCC2V
7
Δn: 0.113

III
3CCB(3F,4F,5F)
12
n_e: 1.602

III
5CCB(3F,4F,5F)
10
Δε: 10.1

III
3CBB(3F,4F,5F)
5
ε_⊥: 3.5

III
3CCBB(3F,4F,5F)
5
K₁/K₃: 13.5/15.9

III
2CCBB(3F,4F,5F)
5

III
3CCB(3F)B(3F,4F,5F)
5

III
H(5)BB(3F,5F)QB(3F,4F,5F)
20

TABLE 3

The proportions of the components of the liquid crystal composition c

obtained in example 3 and the performance parameters thereof

weight

com-

percent-

pound

age

general

content
performance

formula
structural formula of liquid crystal
(%)
parameters

I
3CCB(2F,4F)
5
S-N: ≦−40° C.

I
3BBB(2F,4F)
8
Cp: 85° C.

I
3CBB(2F,4F)
2
γ₁: 70 mPa · s

II
3CCV
30
Δn: 0.110

II
3CC4
10
n_e: 1.596

III
3CCBOCF₃
5
Δε: 9.1

III
3CCBB(3F,4F,5F)
6
ε_⊥: 3.4

III
2CCBB(3F,4F,5F)
6
K₁/K₃:

III
H(5)BB(3F,5F)QB(3F,4F,5F)
20
13.7/14.3

III
H(5)BB(3F)B(3F,5F)QB(3F,4F,5F)
8

TABLE 4

The proportions of the components of the liquid crystal composition d

obtained in example 4 and the performance parameters thereof

weight

compound

percentage

general
structural formula of liquid
content
performance

formula
crystal
(%)
parameters

I
3CCB(2F,4F)
4
S-N: ≦−40° C.

I
1OCCB(2F,4F)
4
Cp: 90° C.

I
3CBB(2F,4F)
4
γ₁: 92 mPa · s

II
3CCV
20
Δn: 0.100

II
3CBO2
2
n_e: 1.588

II
3CC5
5
Δε: 7.0

III
3CCB(4F,5F)
7
ε_⊥: 3.6

III
4CCB(4F,5F)
7
K₁/K₃:

III
5CCB(4F,5F)
7
12.2/15.0

III
3CBB(4F,5F)
5

III
5CBB(4F,5F)
5

III
H(3)1BB(3F,5F)QB(3F,4F,5F)
20

III
H(3)1CCBB(3F,4F,5F)
7

V
3CB(3F)BC3
1.5

V
3CBBC3
1.5

TABLE 5

The proportions of the components of the liquid crystal composition e

obtained in example 5 and the performance parameters thereof

weight

compound

percentage

general
structural formula of liquid
content
performance

formula
crystal
(%)
parameters

I
3BBB(2F,4F)
6
S-N: ≦−30° C.

I
5BBB(2F,4F)
6
Cp: 75° C.

I
3OBBB(2F,4F)
4
γ₁: 56 mPa · s

I
1OBBB(2F,4F)
4
Δn: 0.125

II
3CCV
40
n_e: 1.615

II
3CCV1
6
Δε: 6.6

II
1BBEV1
4
ε_⊥: 3.2

III
H(5)BBB(3F)B(3F,4F,5F)
1
K₁/K₃: 12.1/14.9

III
3CCB(3F)B(3F,4F,5F)
6

III
H(5)BB(3F,5F)QB(3F,4F,5F)
13

III
H(5)BB(3F)
10

TABLE 6

The proportions of the components of the liquid crystal composition f

obtained in example 6 and the performance parameters thereof

compound

weight

general
structural formula of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
5BBB(2F,4F)
7
S-N: ≦−30° C.

I
3CCB(2F,4F)
6
Cp: 87° C.

I
3CPB(2F,4F)
6
γ₁: 88 mPa · s

I
5CC(2F,4F)
6
Δn: 0.120

II
5CCV
15
n_e: 1.608

II
3CCV1
5
Δε: 10.5

III
2CCB(3F,4F,5F)
3
ε_⊥: 3.7

III
3BB(3F,5F)Q B(3F,4F,5F)
15
K₁/K₃: 12.8/14.6

III
3CCQB(3F,4F,5F)
7

III
3BB(3F) B(3F,4F,5F)
5

III
3CC B(3F) B(3F,4F,5F)
6

III
3BB(3F) B(3F,5F)Q
4

III
4BB(3F) B(3F,5F)Q
4

III
3BBB(3F)B(3F,4F,5F)
2

V
VCCB1
5

III
5CBF
4

TABLE 7

The proportions of the components of the liquid crystal composition g

obtained in example 7 and the performance parameters thereof

weight

com-

percent-

pound

age

general

content
performance

formula
structural formula of liquid crystal
(%)
parameters

I
3BBB(2F,4F)
10
S-N: ≦−30° C.

I
4BBB(2F,4F)
10
Cp: 75° C.

I
5BBB(2F,4F)
10
γ₁: 50 mPa · s

I
2OBBB(2F,4F)
5
Δn: 0.120

II
3CCV
51
n_e: 1.608

II
3CCV1
3
Δε: 2.2

II
1BBEV1
2
ε_⊥: 2.8

III
H(5)BB(3F,5F)QB(3F,4F,5F)
3
K₁/K₃:

III
H(5)H[3O]BB(3F,5F)QB(3F,4F,5F)
3
12.8/12.4

III
H(5)BBB(3F)B(3F,4F,5F)
3

TABLE 8

The proportions of the components of the liquid crystal composition h

obtained in example 8 and the performance parameters thereof

weight

com-

percent-

pound

age

general

content
performance

formula
structural formula of liquid crystal
(%)
parameters

I
3CBB(2F,4F)
2
S-N:

V
VCCB1
2
≦−30° C.

V
3BB(2F)B1H(3)
7
Cp: 75° C.

II
3CCV
40
γ₁:

III
3CCBB(3F,4F)
3
80 mPa · s

III
5CCBB(3F,4F)
3
Δn: 0.118

III
H(5)CBB(3F,5F)QB(3F,4F,5F)
5
n_e: 1.608

III
H(5)BB(3F,5F)QB(3F,4F,5F)
20
Δε: 11.6

III
H(5)BB(3F)B(3F,5F)QB(3F,4F,5F)
6
ε_⊥: 3.9

III
H(5)H[3O]BB(3F,5F)QB(3F,4F,5F)
6
K₁/K₃:

III
H(5)H[3O,5O]B(3F,5F)QB(3F,4F,5F)
3
10.7/11.2

III
H(5)BBB(3F)B(3F,4F,5F)
3

TABLE 9

The proportions of the components of the liquid crystal composition i

obtained in example 9 and the performance parameters thereof

compound

weight

general
structural formula of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
5BBB(2F,4F)
9
S-N: ≦−30° C.

I
3BBB(2F,4F)
8.75
Cp: 83° C.

II
3CCV
28
γ₁: 125 mPa · s

II
3CCV1
4
Δn: 0.106

V
3CB(3F)BC3
2
n_e: 1.591

IV
3C1OB(2F,3F)O2
5
Δε: −4.1

IV
3CC1OB(2F,3F)O2
10
ε_⊥: 8.2

IV
2CC1OB(2F,3F)O2
10
K₁/K₃: 15.4/17.9

IV
5CC1OB(2F,3F)O2
10

IV
H(5)C1OB(2F,3F)O2
13

III
H(5)BBB(3F)B(3F,4F,5F)
0.25

TABLE 10

The proportions of the components of the liquid crystal composition j

obtained in example 10 and the performance parameters thereof

compound

weight

general
structural formula of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
5BBB(2F,4F)
10
S-N: ≦−40° C.

I
3BBB(2F,4F)
5
Cp: 71° C.

I
3CBB(2F,4F)
4
γ₁: 94 mPa · s

I
5CBB(2F,4F)
4
Δn: 0.117

II
3CBO2
4
n_e: 1.609

II
2CC3
20
Δε: −2.4

II
4CC3
6
ε_⊥: 6.3

II
5CC3
6
K₁/K₃: 14.4/13.5

IV
3CBB(2F,3F)O2
9

IV
2CBB(2F,3F)O2
9

IV
H(5)C1OB(2F,3F)O2
10

IV
3C1OB(2F,3F)O2
8

IV
H(5)BB(2F,3F)O2
5

TABLE 11

The proportions of the components of the liquid crystal composition k

obtained in example 11 and the performance parameters thereof

compound

weight

general
structural formula of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
5BBB(2F,4F)
2
S-N: ≦−30° C.

V
3CBB2
8
Cp: 75° C.

V
5CBB2
8
γ₁: 90 mPa · s

V
3CB(3F)BC3
1
Δn: 0.101

II
5BB1
6
n_e: 1.589

II
2CC3
20
Δε: −2.8

II
4CC3
6
ε_⊥: 6.5

II
5CC3
6
K₁/K₃: 14.3/14.5

IV
3CC1OB(2F,3F)O2
12

IV
2CC1OB(2F,3F)O2
12

IV
3BB(2F,3F)O2
13

IV
2C1OB(2F,3F)O2
6

TABLE 12

The proportions of the components of the liquid crystal composition l

obtained in example 12 and the performance parameters thereof

compound

weight

general
structural formula of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
5CCB(2F,4F)
5
S-N: ≦−40° C.

V
3CBB2
5
Cp: 77° C.

V
5CBB2
5
γ₁: 115 mPa · s

II
2CC3
20
Δn: 0.100

II
3CBO2
5
n_e: 1.584

IV
3CBB(2F,3F)O2
9
Δε: −3.4

IV
2CBB(2F,3F)O2
9
ε_⊥: 7.0

IV
3CCB(2F,3F)O2
6
K₁/K₃: 13.5/13.7

IV
5CCB(2F,3F)O2
6

IV
3CB(2F,3F)O4
15

IV
5CB(2F,3F)O4
15

TABLE 13

The proportions of the components of the liquid crystal composition m

obtained in example 13 and the performance parameters thereof

compound

weight

general
structural formula of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
5BBB(2F,4F)
10
S-N: ≦−40° C.

V
3CBB2
5
Cp: 88° C.

II
3CCV
32
γ₁: 130 mPa · s

IV
3CC1OB(2F,3F)O2
12
Δn: 0.108

IV
2CC1OB(2F,3F)O2
12
n_e: 1.594

IV
5CC1OB(2F,3F)O2
5
Δε: −3.9

IV
H(5)CBB(2F,3F)O2
7
ε_⊥: 7.8

IV
H(5)BB(2F,3F)O2
5
K₁/K₃: 17.0/17.7

IV
H(5)C1OB(2F,3F)O2
12

TABLE 14

The proportions of the components of the liquid crystal composition n

obtained in example 14 and the performance parameters thereof

compound

weight

general
structural formula of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
3CCB(2F,4F)
1
S-N: ≦−40° C.

II
3CCV1
8
Cp: 71° C.

II
5CB3
2
γ₁: 82 mPa · s

II
5CC3
2
Δn: 0.110

II
1BBEV1
2
n_e: 1.594

II
3CCV
20
Δε: −3.9

IV
3CCB(2F,3F)O2
5
ε_⊥: 7.8

IV
3CPB(2F,3F)O2
3
K₁/K₃: 13.3/15.3

IV
1VCCB(2F,3F)O2
5

IV
2CBB(2F,3F)O2
9

IV
3CBB(2F,3F)O2
9

IV
3BB(2F,3F)O2
15

IV
3CB(2F,3F)O2
15

IV
4CBB(2F,3F)O2
4

TABLE 15

The proportions of the components of the liquid crystal composition

o obtained in example 15 and the performance parameters thereof

compound
structural formula
weight

general
of liquid
percentage
performance

formula
crystal
content (%)
parameters

I
3CPB(2F,4F)
3
S—N: ≦−30° C.

I
3 3H[3O]BB(2F,4F)
3
Cp: 75° C.

II
3CCV1
5
γ₁: 88 mPa · s

II
5CB3
3
Δn: 0.094

II
5CC3
7
n_e: 1.575

II
2CC3
19
Δε: −3.0

II
4CC3
7
ε⊥: 6.3

II
3CBO2
2
K₁/K₃: 15.0/14.8

IV
3CC1OB(2F,3F)O2
11

IV
2CC1OB(2F,3F)O2
11

IV
3CB(2F,3F)EB(2F,3F)O2
3

IV
H(5)CB(2F,3F)O2
7

IV
H(5)C1OB(2F,3F)O2
7

IV
2BB(2F,3F)B4
6

IV
2BB(2F,3F)B3
6

It can be seen from the foregoing that the above-mentioned liquid crystal composition provided in the present disclosure has excellent performance and an optical anisotropy within a range of 0.080-0.150, and has a wide nematic temperature range, a low rotary viscosity, a relatively fast response time and good chemical, light and thermal stability; the liquid crystal medium contains one or more compounds with a 2,4-diflurophenyl, the compound has a good normal temperature miscibility at a low temperature and chemical and thermal stability, is very suitable for manufacturing a liquid crystal display element, especially an active matrix display element, such as an active matrix display in a TN, FFS or IPS mode.

LIQUID CRYSTAL MEDIUM CONTAINING 2,4-DIFLUROPHENYL COMPOUNDS AND USE

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