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Liquid crystal composition and liquid crystal light modulating device

a technology of liquid crystal composition and light modulating device, which is applied in the direction of liquid crystal composition, chemistry apparatus and processes, instruments, etc., can solve the problems of low reflectance, weak color in the planar state, and insufficient contrast between the planar state and the focal-conic sta

Inactive Publication Date: 2002-01-10
MINOLTA CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008] Another object of the present invention is to provide a liquid crystal light modulating device which is good in color purity, reflectance, etc., has a wide temperature range which permits practical display performance and is driven by a low voltage.
[0013] If the anisotropy of refractive index is too low, the quantity of scattered light will be small. Consequently, coloring in the planar state will be weak, and the reflectance will not be sufficient. On the other hand, if the anisotropy of refractive index is too high, the quantity of scattered light will be too large, and the transparency or the black display in the focal-conic state will be bad. Consequently, the display performance will be poor. According to the present invention, the anisotropy of refractive index is regulated to a value within a range from 0.1 to 0.22. Thereby, both the color portions and the transparent portions are good in reflectance, and satisfactory contrast can be obtained.
[0014] Also, the anisotropy of dielectric constant is regulated to be not more than 30. Thereby, when a liquid crystal light modulating device is fabricated by use of the liquid crystal composition, the peripheral materials such as a sealing material are prevented from diffusing into the liquid crystal, and the reliability of the device can be improved. If the anisotropy of dielectric constant is less than 5, a high driving voltage will be necessary. If the transition temperature to isotropic phase of the nematic liquid crystal is lower than 70.degree. C., the temperature range which permits practical display performance will be narrow. If the transition temperature to isotropic phase is higher than 150.degree. C., the liquid crystal will be crystallized easily by addition of a chiral agent.

Problems solved by technology

At present, however, in such a reflective liquid crystal display, the reflectance is low, and the contrast between the planar state and the focal-conic state is not sufficiently high, and liquid crystal displays of this type which are satisfactory in performance such as color purity (excitation purity), etc. are yet to be developed.
Consequently, coloring in the planar state will be weak, and the reflectance will not be sufficient.
On the other hand, if the anisotropy of refractive index is too high, the quantity of scattered light will be too large, and the transparency or the black display in the focal-conic state will be bad.
Consequently, the display performance will be poor.

Method used

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  • Liquid crystal composition and liquid crystal light modulating device
  • Liquid crystal composition and liquid crystal light modulating device
  • Liquid crystal composition and liquid crystal light modulating device

Examples

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experimental example 2

[0071] To a nematic liquid crystal mixture (which contains a component with a polar group at 49 wt %) which contains the liquid crystal pyrimidine compounds of the chemical formulas (C.sub.14), (C.sub.22), (C.sub.23) and (C.sub.24) at 29 wt % and the liquid crystal tolan compounds with a polar group of the chemical formulas (A.sub.43), (A.sub.44) and (A.sub.45) at 20 wt % and of which transition temperature to isotropic phase is 130.degree. C., the chiral agent of the chemical formula (D.sub.3) and the chiral agent of the chemical formula (D.sub.1) were added at 15.8 wt % and 17.5 wt %, respectively. Thus, a liquid crystal composition which selectively reflects light of 550 nm was prepared. With respect to this chiral nematic liquid crystal composition, the anisotropy of refractive index was 0.215; the anisotropy of dielectric constant was 8; and the transition temperature to isotropic phase was 75.degree. C. Spacers were provided between glass substrates with electrodes thereon so ...

experimental example 3

[0075] To a nematic liquid crystal mixture (which contains a component with a polar group at 49 wt %) which contains the liquid crystal pyrimidine compounds of the chemical formulas (C.sub.14), (C.sub.22), (C.sub.23) and (C.sub.24) at 29 wt % and the liquid crystal tolan compounds with a polar group of the chemical formulas (A.sub.43), (A.sub.44) and (A.sub.45) at 20 wt % and of which transition temperature to isotropic phase is 130.degree. C., the chiral agent of the chemical formula (D.sub.3) and the chiral agent of the chemical formula (D.sub.2) were added at 17.8 wt % and 7.6 wt %, respectively. Thus, a liquid crystal composition which selectively reflects light of 490 nm was prepared. With respect to this chiral nematic liquid crystal composition, the anisotropy of refractive index was 0.20; the anisotropy of dielectric constant was 13.3; and the transition temperature to isotropic phase was 70.degree. C. Spacers were provided between glass substrates with electrodes thereon so...

experimental example 4

[0081] To a nematic liquid crystal mixture (which contains a component with a polar group at 45 wt %) which contains the liquid crystal pyrimidine compounds of the chemical formulas (C.sub.14), (C.sub.22) and (C.sub.23) at 21 wt % and the liquid crystal tolan compounds with a polar group of the chemical formulas (A.sub.43) and (A.sub.44) at 24 wt % and of which transition temperature to isotropic phase is 94.degree. C., the chiral agent of the chemical formula (D.sub.3) and the chiral agent of the chemical formula (D.sub.2) were added at 17 wt % and 5 wt %, respectively. Thus, a liquid crystal composition which selectively reflects light of 680 nm was prepared. With respect to this chiral nematic liquid crystal composition, the anisotropy of refractive index was 0.2; the anisotropy of dielectric constant was 8; and the transition temperature to isotropic phase was 70.degree. C. Spacers were provided between glass substrates with electrodes thereon so that the gap could be regulated ...

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Abstract

A reflective type liquid crystal display which has a liquid crystal composition exhibiting a cholesteric phase in a room temperature and a columnar structure between substrates with ITO electrodes thereon. The liquid crystal composition is a chiral nematic liquid crystal composition which is produced by adding a chiral agent at a ratio within a range from 10 wt % to 45 wt % to nematic liquid crystal which contains a nematic liquid crystal component with a polar group at not less than 25 wt % and of which transition temperature to isotropic phase is within a range from 70° C. to 150° C. The anisotropy of refractive index of the liquid crystal composition is 0.10 to 0.22, and the anisotropy of dielectric constant is 5 to 30.

Description

[0001] This application is based on applications No. 10-231921 and No. 11-122268 filed in Japan, the contents of which is hereby incorporated by reference.[0002] 1. Field of the Invention[0003] The present invention relates to a liquid crystal composition which exhibits a cholesteric phase in a room temperature and a reflective type liquid crystal light modulating device provided with the liquid crystal composition.[0004] 2. Description of Related Art[0005] Recently, studies have been made to develop reflective liquid crystal displays by using chiral nematic liquid crystal which is produced by adding a chiral agent to nematic liquid crystal to cause the liquid crystal to exhibit a cholesteric phase in a room temperature. Such a liquid crystal display makes a display by switching between a planar state (color) and a focal-conic state (transparent) in accordance with the level of the pulse voltage applied thereto. The planar state and the focal-conic state can be maintained after the ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C09K19/02C09K19/42C09K19/46C09K19/58G02F1/13G02F1/137
CPCC09K19/42C09K19/46C09K19/586G02F1/13718
Inventor IWAMATSU, MASAKOKOBAYASHI, NOBUYUKIUEDA, HIDEAKI
Owner MINOLTA CO LTD
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