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    • 1. 发明申请
    • METHOD OF PRODUCING OPTICAL LAMINATE AND IMAGE DISPLAYING APPARATUS
    • 生产光学层压板和图像显示装置的方法
    • US20100165284A1
    • 2010-07-01
    • US12280096
    • 2008-02-04
    • Yasuko IwakawaShusaku NakanoShoichi Matsuda
    • Yasuko IwakawaShusaku NakanoShoichi Matsuda
    • G02F1/13C09K19/00C09K19/56
    • G02B1/10G02B5/3016G02B5/3083Y10T428/10Y10T428/1023
    • The present invention provides a method of producing an optical laminate that can produce an optical laminate including an applied film containing a lyotropic liquid crystalline compound so that the thickness of the applied film will be approximately uniform.A method of producing an optical laminate having a base material and an applied film, comprising the step of applying a solution containing at least one kind of lyotropic liquid crystalline compound on the base material so as to form the applied film, wherein the concentration of the lyotropic liquid crystalline compound in the solution is lower than the isotropic phase-liquid crystal phase transition concentration. For example, the concentration of the lyotropic liquid crystalline compound in the solution is from (CIN−18)% by mass to (CIN−1)% by mass, where CIN represents the isotropic phase-liquid crystal phase transition concentration.
    • 本发明提供一种光学层叠体的制造方法,其可以制造包含含有溶致液晶化合物的涂膜的光学层叠体,使得涂膜的厚度大致均匀。 一种制备具有基材和涂膜的光学层叠体的方法,包括在基材上涂布含有至少一种溶致液晶化合物的溶液以形成涂布膜的步骤,其中, 溶液中的溶致液晶化合物低于各向同性相 - 液晶相转移浓度。 例如,溶液中的溶致液晶化合物的浓度为(CIN-18)质量%〜(CIN-1)质量%,其中CIN表示各向同性相 - 液晶相转移浓度。
    • 4. 发明授权
    • Method of producing optical laminate and image displaying apparatus
    • 光学层压板的制造方法及图像显示装置
    • US08009267B2
    • 2011-08-30
    • US12280096
    • 2008-02-04
    • Yasuko IwakawaShusaku NakanoShoichi Matsuda
    • Yasuko IwakawaShusaku NakanoShoichi Matsuda
    • G02F1/13C09K19/04
    • G02B1/10G02B5/3016G02B5/3083Y10T428/10Y10T428/1023
    • The present invention provides a method of producing an optical laminate that can produce an optical laminate including an applied film containing a lyotropic liquid crystalline compound so that the thickness of the applied film will be approximately uniform. A method of producing an optical laminate having a base material and an applied film, comprising the step of applying a solution containing at least one kind of lyotropic liquid crystalline compound on the base material so as to form the applied film, wherein the concentration of the lyotropic liquid crystalline compound in the solution is lower than the isotropic phase—liquid crystal phase transition concentration. For example, the concentration of the lyotropic liquid crystalline compound in the solution is from (CIN−18)% by mass to (CIN−1)% by mass, where CIN represents the isotropic phase-liquid crystal phase transition concentration.
    • 本发明提供一种光学层叠体的制造方法,其可以制造包含含有溶致液晶化合物的涂膜的光学层叠体,使得涂膜的厚度大致均匀。 一种制备具有基材和涂膜的光学层叠体的方法,包括在基材上涂布含有至少一种溶致液晶化合物的溶液以形成涂布膜的步骤,其中, 溶液中的溶致液晶化合物低于各向同性相 - 液晶相转移浓度。 例如,溶液中的溶致液晶化合物的浓度为(CIN-18)质量%〜(CIN-1)质量%,其中CIN表示各向同性相 - 液晶相转移浓度。
    • 8. 发明申请
    • METHOD AND SYSTEM FOR EVALUATING OPTICAL PROPERTIES OF COMPENSATION LAYER
    • 评估补偿层光学性质的方法和系统
    • US20100110432A1
    • 2010-05-06
    • US12520203
    • 2008-02-20
    • Kazuto YamagataShusaku NakanoTsuyoshi KashimaRie HayashiuchiToshimasa NishimoriMasayo HiroseHidetoshi Maikawa
    • Kazuto YamagataShusaku NakanoTsuyoshi KashimaRie HayashiuchiToshimasa NishimoriMasayo HiroseHidetoshi Maikawa
    • G01J4/00
    • G01N21/211G02B5/3083
    • A compensation layer optical property evaluation method capable of precisely and accurately evaluating the optical properties of the compensation layer without separating the compensation layer from the optical film, namely without causing a breakage of the compensation layer or a change in the optical properties, and to provide a compensation layer optical property evaluation system for use in such a method. The method for evaluating the optical properties of a compensation layer in an optical film comprising at least a polarizer and the compensation layer placed thereon, comprising the steps of: preparing the optical property data that represent the relationship between the ellipticity of polarized light and optical properties of the compensation layer, wherein the optical properties include front retardation R0, thickness retardation Rth, bonding angle θ, and average tilt angle β; measuring the ellipticity of polarized light through a sample of the optical film,; extracting the optical property data equal or close to the measured ellipticity of the polarized light from the data prepared in the data preparing step.
    • 一种补偿层光学特性评估方法,其能够精确而准确地评估补偿层的光学性质而不将补偿层与光学膜分离,即不引起补偿层的破损或光学性质的变化,并且提供 用于这种方法的补偿层光学性能评估系统。 用于评估光学膜中的补偿层的光学性质的方法,该光学膜包括至少一个偏振片和置于其上的补偿层,包括以下步骤:准备表示偏振光的椭圆率与光学特性之间的关系的光学特性数据 其中光学特性包括前向延迟R0,厚度延迟Rth,接合角度和平均倾角&bgr;; 通过光学膜的样品测量偏振光的椭圆率; 从数据准备步骤中准备的数据中提取与所测量的偏振光的椭圆率相等或接近的光学性质数据。
    • 10. 发明授权
    • Optically active monomer, liquid crystal polymer, and optical element
    • 光学活性单体,液晶聚合物和光学元件
    • US06248259B1
    • 2001-06-19
    • US09402539
    • 1999-10-06
    • Kyoko IzumiShusaku NakanoAmane Mochizuki
    • Kyoko IzumiShusaku NakanoAmane Mochizuki
    • C09K1934
    • C07D493/04C08F20/26C08F20/30C09K19/3861C09K2019/3408G02B5/3016
    • To obtain a monomer having a large torsion force, to obtain a liquid crystal polymer which is excellent in a film-forming property, can easily control a helical pitch of a cholesteric phase, can form a grandjean orientation in a good monodomain state by an orientation treatment in a short time such as few minutes, and can stably fix it in a glass state, and to obtain an optical element having a circular dichroism, represented by the following formula (a), comprising a solidified product of the liquid crystal polymer, which is thin and light, is hard to change the oriented state such as pitch, etc., at a practical temperature, and has excellent durability and storage stability. An optically active monomer represented by (wherein R1 represents a hydrogen atom or a methyl group, and A and B represent an organic group); a side chain type liquid crystal polymer having a structural unit comprising the optically active monomer; and an optical element showing a circular dichroism having a solidified layer of a grandjean oriented cholesteric liquid crystal phase comprising the liquid crystal polymer.
    • 为了获得具有大扭矩的单体,为了获得成膜性优异的液晶聚合物,可以容易地控制胆甾型相的螺旋间距,可以通过取向形成具有良好单畴状态的超大方向 在几分钟内的短时间内进行处理,并且可以将其稳定地固定在玻璃状态,并且获得由下式(a)表示的具有圆二色性的光学元件,其包含液晶聚合物的固化产物, 在实用的温度下难以改变诸如沥青等的取向状态,并且具有优异的耐久性和储存稳定性。一种由(其中R 1表示氢原子或甲基)表示的光学活性单体 ,A和B表示有机基团); 具有包含光学活性单体的结构单元的侧链型液晶聚合物; 以及表示具有由液晶聚合物构成的具有盛大的取向胆固醇型液晶相的固化层的圆二色性的光学元件。