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    • 2. 发明申请
    • Electro-optical devices from polymer-stabilized liquid crystal molecules
    • 聚合物稳定液晶分子的电光装置
    • US20050162585A1
    • 2005-07-28
    • US10766273
    • 2004-01-28
    • Lachezar KomitovLiang-Chy ChienSang Kim
    • Lachezar KomitovLiang-Chy ChienSang Kim
    • G02F1/1333G02F1/137
    • G02F1/13718G02F2001/13775
    • An electro-optic device includes a liquid crystal cell (10, 10′) and at least one electrode (40, 42, 40′, 42′) arranged to selectively electrically bias the liquid crystal cell (10, 10′). A chiral or cholesteric liquid crystal (30, 30′) is disposed in the liquid crystal cell (10, 10′). The liquid crystal (10, 10′) has an optic axis substantially along a selected optic axis direction in the absence of an electrical bias. A polymeric network (32, 32′, 72) is disposed at an inside surface of the liquid crystal cell (10, 10′). The polymeric network (32, 32′, 72) extends partway into the liquid crystal cell (10, 10′) leaving at least a portion of the liquid crystal cell (10, 10′) substantially free of the polymeric network (32, 32′, 72).
    • 电光器件包括液晶单元(10,10')和至少一个电极(40,42,40',42'),其布置成选择性地电偏置液晶单元(10,10')。 在液晶单元(10,10')中设置手性或胆甾型液晶(30,30')。 在没有电偏压的情况下,液晶(10,10')具有基本上沿所选择的光轴方向的光轴。 聚合物网络(32,32',72)设置在液晶单元(10,10')的内表面。 聚合物网络(32,32',72)在中途延伸到液晶单元(10,10')中,使至少一部分液晶单元(10,10')基本上不含聚合物网络(32,32) ',72)。
    • 3. 发明授权
    • Method of fabricating electro-optical devices with polymer-stabilized liquid crystal molecules
    • 用聚合物稳定液晶分子制造电光装置的方法
    • US07499125B2
    • 2009-03-03
    • US11365412
    • 2006-03-01
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • G02F1/1333G02F1/13C09K19/52
    • G02F1/13718G02F1/133711G02F2001/13775
    • In a preparation method, a chiral or cholesteric liquid crystal, a photoreactive monomer, and a photoinitiator are disposed in a liquid crystal cell. A principal surface of the liquid crystal cell is illuminated with ultraviolet light selected to have a non-uniform ultraviolet light intensity profile in the liquid crystal cell. The illuminating cooperates with the photoinitiator to polymerize at least a portion of the photoreactive monomer near the principal surface to generate a polymer network having a density corresponding to the non-uniform ultraviolet light intensity profile. The polymer network biases the liquid crystal toward a selected helical alignment direction. In some embodiments, the illuminating includes illuminating with first and second ultraviolet light intensity profiles to produce surface and volume polymer network components.
    • 在制备方法中,在液晶单元中设置手性或胆甾型液晶,光反应性单体和光引发剂。 液晶单元的主表面被选择为在液晶单元中具有不均匀的紫外光强度分布的紫外光照射。 照明与光引发剂配合使得在主表面附近的至少一部分光反应性单体聚合以产生具有对应于非均匀紫外光强度分布的密度的聚合物网络。 聚合物网络朝向所选择的螺旋排列方向偏压液晶。 在一些实施例中,照明包括利用第一和第二紫外光强度分布的照射,以产生表面和体积的聚合物网络组件。
    • 4. 发明申请
    • METHOD OF FABRICATING ELECTRO-OPTICAL DEVICES WITH POLYMER-STABILIZED LIQUID CRYSTAL MOLECULES
    • 用聚合物稳定的液晶分子制备电光器件的方法
    • US20090152772A1
    • 2009-06-18
    • US12392389
    • 2009-02-25
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • B29C67/00
    • G02F1/13718G02F1/133711G02F2001/13775
    • In a preparation method, a chiral or cholesteric liquid crystal, a photoreactive monomer, and a photoinitiator are disposed in a liquid crystal cell. A principal surface of the liquid crystal cell is illuminated with ultraviolet light selected to have a non-uniform ultraviolet light intensity profile in the liquid crystal cell. The illuminating cooperates with the photoinitiator to polymerize at least a portion of the photoreactive monomer near the principal surface to generate a polymer network having a density corresponding to the non-uniform ultraviolet light intensity profile. The polymer network biases the liquid crystal toward a selected helical alignment direction. In some embodiments, the illuminating includes illuminating with first and second ultraviolet light intensity profiles to produce surface and volume polymer network components.
    • 在制备方法中,在液晶单元中设置手性或胆甾型液晶,光反应性单体和光引发剂。 液晶单元的主表面被选择为在液晶单元中具有不均匀的紫外光强度分布的紫外光照射。 照明与光引发剂配合使得在主表面附近的至少一部分光反应性单体聚合以产生具有对应于非均匀紫外光强度分布的密度的聚合物网络。 聚合物网络朝向所选择的螺旋排列方向偏压液晶。 在一些实施例中,照明包括利用第一和第二紫外光强度分布的照射,以产生表面和体积的聚合物网络组件。
    • 5. 发明授权
    • Electro-optical devices from polymer-stabilized liquid crystal molecules
    • 聚合物稳定液晶分子的电光装置
    • US07038743B2
    • 2006-05-02
    • US10766273
    • 2004-01-28
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • G02F1/1333C09K19/02
    • G02F1/13718G02F2001/13775
    • An electro-optic device includes a liquid crystal cell (10, 10′) and at least one electrode (40, 42, 40′, 42′) arranged to selectively electrically bias the liquid crystal cell (10, 10′). A chiral or cholesteric liquid crystal (30, 30′) is disposed in the liquid crystal cell (10, 10′). The liquid crystal (10, 10′) has an optic axis substantially along a selected optic axis direction in the absence of an electrical bias. A polymeric network (32, 32′, 72) is disposed at an inside surface of the liquid crystal cell (10, 10′). The polymeric network (32, 32′, 72) extends partway into the liquid crystal cell (10, 10′) leaving at least a portion of the liquid crystal cell (10, 10′) substantially free of the polymeric network (32, 32′, 72).
    • 电光器件包括液晶单元(10,10')和至少一个电极(40,42,40',42'),其布置成选择性地电偏置液晶单元(10,10')。 在液晶单元(10,10')中设置手性或胆甾型液晶(30,30')。 在没有电偏压的情况下,液晶(10,10')具有基本上沿所选择的光轴方向的光轴。 聚合物网络(32,32',72)设置在液晶单元(10,10')的内表面。 聚合物网络(32,32',72)在中途延伸到液晶单元(10,10')中,使至少一部分液晶单元(10,10')基本上不含聚合物网络(32,32) ',72)。
    • 6. 发明授权
    • Method of fabricating electro-optical devices with polymer-stabilized liquid crystal molecules
    • 用聚合物稳定液晶分子制造电光装置的方法
    • US08081272B2
    • 2011-12-20
    • US12392389
    • 2009-02-25
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • Lachezar KomitovLiang-Chy ChienSang Hwa Kim
    • G02F1/1333G02F1/13C09K19/52
    • G02F1/13718G02F1/133711G02F2001/13775
    • In a preparation method, a chiral or cholesteric liquid crystal, a photoreactive monomer, and a photoinitiator are disposed in a liquid crystal cell. A principal surface of the liquid crystal cell is illuminated with ultraviolet light selected to have a non-uniform ultraviolet light intensity profile in the liquid crystal cell. The illuminating cooperates with the photoinitiator to polymerize at least a portion of the photoreactive monomer near the principal surface to generate a polymer network having a density corresponding to the non-uniform ultraviolet light intensity profile. The polymer network biases the liquid crystal toward a selected helical alignment direction. In some embodiments, the illuminating includes illuminating with first and second ultraviolet light intensity profiles to produce surface and volume polymer network components.
    • 在制备方法中,在液晶单元中设置手性或胆甾型液晶,光反应性单体和光引发剂。 液晶单元的主表面被选择为在液晶单元中具有不均匀的紫外光强度分布的紫外光照射。 照明与光引发剂配合使得在主表面附近的至少一部分光反应性单体聚合以产生具有对应于非均匀紫外光强度分布的密度的聚合物网络。 聚合物网络朝向所选择的螺旋排列方向偏压液晶。 在一些实施例中,照明包括利用第一和第二紫外光强度分布的照射,以产生表面和体积的聚合物网络组件。
    • 8. 发明授权
    • Liquid crystal device for generation and fast switching of high contrast images
    • 用于生成高速对比图像的快速切换液晶装置
    • US07907236B2
    • 2011-03-15
    • US11892399
    • 2007-08-22
    • Lachezar KomitovNils OlssonBertil Helgee
    • Lachezar KomitovNils OlssonBertil Helgee
    • G02F1/1335
    • G02F1/1416C09K19/0266C09K19/406G02F1/1337G02F2001/1412
    • An electro-optic device including a liquid crystal material is disclosed, comprising antiferroelectric liquid crystals with large molecular tilt θ of about 45° degrees, disposed between two flat glass or polymer substrates. The liquid crystal molecules are preferably oriented parallel to the substrates (so-called HAF texture). The device is e.g. placed between two crossed polarizers so that in field-off conditions the impinging light is not passing through the device due to the isotropic optical properties of the antiferreoelectric liquid crystal aligned in HAF texture. An applied electric field induces a continuous transition of the optically isotropic antiferreoelectric (AF) state to ferroelectric (F) one which is birefringent enabling the transmission of light. The field-induced continuous switching between the optically isotropic antiferreoelectric state and the birefringent ferroelectric state enables the generation and fast switching of high contrast as well as generation of grey scale levels.
    • 公开了一种包括液晶材料的电光装置,包括具有大分子倾斜角度的反铁电液晶; 约45度,设置在两个平板玻璃或聚合物基板之间。 液晶分子优选平行于基底定向(所谓的HAF纹理)。 该装置是例如 放置在两个交叉的偏振器之间,使得在场离开条件下,由于以HAF纹理排列的反铁电液晶的各向同性光学特性,入射光不会通过该装置。 施加的电场引起光学各向同性的反铁电(AF)状态与能够传输光的双折射的铁电(F)的连续转变。 光学各向同性的反铁电状态和双折射铁电状态之间的场致连续切换能够实现高对比度的产生和快速切换以及灰度级的产生。
    • 9. 发明申请
    • Liquid crystal device for generation and fast switching of high contrast images
    • 用于生成高速对比图像的快速切换液晶装置
    • US20080049175A1
    • 2008-02-28
    • US11892399
    • 2007-08-22
    • Lachezar KomitovNils OlssonBertil Helgee
    • Lachezar KomitovNils OlssonBertil Helgee
    • G02F1/1335G02F1/1337
    • G02F1/1416C09K19/0266C09K19/406G02F1/1337G02F2001/1412
    • An electro-optic device including a liquid crystal material is disclosed, comprising antiferroelectric liquid crystals with large molecular tilt θ of about 45° degrees, disposed between two flat glass or polymer substrates. The liquid crystal molecules are preferably oriented parallel to the substrates (so-called HAF texture). The device is e.g. placed between two crossed polarizers so that in field-off conditions the impinging light is not passing through the device due to the isotropic optical properties of the antiferreoelectric liquid crystal aligned in HAF texture. An applied electric field induces a continuous transition of the optically isotropic antiferreoelectric (AF) state to ferroelectric (F) one which is birefringent enabling the transmission of light. The field-induced continuous switching between the optically isotropic antiferreoelectric state and the birefringent ferroelectric state enables the generation and fast switching of high contrast as well as generation of grey scale levels.
    • 公开了一种包括液晶材料的电光装置,其包括设置在两个平板玻璃或聚合物基板之间的具有约45°角的大分子倾斜度的反铁电液晶。 液晶分子优选平行于基底定向(所谓的HAF纹理)。 该装置是例如 放置在两个交叉的偏振器之间,使得在场离开条件下,由于以HAF纹理排列的反铁电液晶的各向同性光学特性,入射光不会通过该装置。 施加的电场引起光学各向同性的反铁电(AF)状态与能够传输光的双折射的铁电(F)的连续转变。 在光学各向同性的反铁电状态和双折射铁电状态之间的场致连续切换能够实现高对比度的产生和快速切换以及灰度级的产生。