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    • 3. 发明授权
    • Material for liquid crystal cell
    • 液晶单元材料
    • US07903228B2
    • 2011-03-08
    • US10471195
    • 2003-01-10
    • Yurii ReznikovAnatoliy GlushchenkoVictor ReshetnyakJohn West
    • Yurii ReznikovAnatoliy GlushchenkoVictor ReshetnyakJohn West
    • C09K19/02
    • C09K19/52C09K19/0225C09K19/544G02F1/137
    • A liquid crystal device comprises ferroelectric particles suspended in a liquid crystal material. A method for fabricating a light-modulating device is also disclosed. The method comprises the steps of providing a pair of substrates with a cell gap therebetween, wherein electrodes are disposed on the facing surfaces of the substrates, and permanently disposing a suspension of ferroelectric particles in a liquid crystal material into said cell gap. A method of generating an image comprises providing a pair of substrates with a cell gap therebetween, providing transparent electrodes on each of said substrates adjacent to the cell gap, permanently disposing a suspension of ferroelectric particles in a liquid crystal material within the cell gap, and applying an electric field across the electrodes.
    • 液晶装置包括悬浮在液晶材料中的铁电粒子。 还公开了一种制造光调制装置的方法。 该方法包括以下步骤:提供一对基板之间的单元间隙,其中电极设置在基板的相对表面上,并且将液晶材料中的铁电颗粒的悬浮液永久地设置到所述单元间隙中。 一种产生图像的方法包括提供一对基板之间的单元间隙,在与单元间隙相邻的每个所述基板上提供透明电极,将铁电颗粒的悬浮液永久性地设置在单元间隙内的液晶材料中,以及 在电极上施加电场。
    • 5. 发明授权
    • Stressed liquid crystals materials for light modulation
    • 强调液晶材料进行光调制
    • US07595850B2
    • 2009-09-29
    • US11299993
    • 2005-12-12
    • John L. WestAnatoliy GlushchenkoGuoqiang Zhang
    • John L. WestAnatoliy GlushchenkoGuoqiang Zhang
    • G02F1/1333
    • G02F1/1334C09K19/542G02F2203/50Y10T29/49117
    • A new light modulating material using interconnected unidirectionally oriented microdomains of a liquid crystal, dispersed in a stressed polymer structure, is provided. The light modulating material is prepared by dissolving the liquid crystal in an uncured monomer and then curing the monomer so that the polymer forms a well-developed interpenetrating structure of polymer chains or sheets that is uniformly dispersed through the film. When the film is subjected to stress deformation the liquid crystal undergoes a change in its unidirectional orientation. The concentration of the polymer is high enough to hold the shear stress, but is as low as possible to provide the highest switch of the phase retardation when an electric field is applied. The new materials are optically transparent and provide phase modulation of the incident light opposed to the low driving voltage, linear electro-optical response, and absence of hysteresis. It has been shown that these new materials may be successfully used in display applications, optical modulator, and beam steering devices.
    • 提供了使用分散在应力聚合物结构中的液晶的相互连接的单向定向微区域的新的光调制材料。 光调制材料通过将液晶溶解在未固化的单体中然后固化单体来制备,使得聚合物形成均匀地分散在膜中的聚合物链或片材的良好发展的互穿结构。 当膜受到应力变形时,液晶经历其单向取向的变化。 聚合物的浓度足够高以保持剪切应力,但是当施加电场时,尽可能低地提供相位延迟的最高开关。 新材料是光学透明的,并且提供与低驱动电压相对的入射光的相位调制,线性电光响应和不存在滞后。 已经表明这些新材料可以成功地用于显示应用,光学调制器和光束转向装置中。
    • 6. 发明授权
    • Stressed liquid crystals materials for light modulation
    • 强调液晶材料进行光调制
    • US08054413B2
    • 2011-11-08
    • US12559872
    • 2009-09-15
    • John L. WestAnatoliy GlushchenkoGuoqiang Zhang
    • John L. WestAnatoliy GlushchenkoGuoqiang Zhang
    • G02F1/1333G02F1/13
    • G02F1/1334C09K19/542G02F2203/50Y10T29/49117
    • A new light modulating material using interconnected unidirectionally oriented microdomains of a liquid crystal, dispersed in a stressed polymer structure, is provided. The light modulating material is prepared by dissolving the liquid crystal in an uncured monomer and then curing the monomer so that the polymer forms a well-developed interpenetrating structure of polymer chains or sheets that is uniformly dispersed through the film. When the film is subjected to stress deformation the liquid crystal undergoes a change in its unidirectional orientation. The concentration of the polymer is high enough to hold the shear stress, but is as low as possible to provide the highest switch of the phase retardation when an electric field is applied. The new materials are optically transparent and provide phase modulation of the incident light opposed to the low driving voltage, linear electro-optical response, and absence of hysteresis. It has been shown that these new materials may be successfully used in display applications, optical modulator, and beam steering devices.
    • 提供了使用分散在应力聚合物结构中的液晶的相互连接的单向定向微区域的新的光调制材料。 光调制材料通过将液晶溶解在未固化的单体中然后固化单体来制备,使得聚合物形成均匀地分散在膜中的聚合物链或片材的良好发展的互穿结构。 当膜受到应力变形时,液晶经历其单向取向的变化。 聚合物的浓度足够高以保持剪切应力,但是当施加电场时,尽可能低地提供相位延迟的最高开关。 新材料是光学透明的,并且提供与低驱动电压相对的入射光的相位调制,线性电光响应和不存在滞后。 已经表明这些新材料可以成功地用于显示应用,光学调制器和光束转向装置中。