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    • 4. 发明申请
    • Controlled gap states for liquid crystal displays
    • 液晶显示器的控制间隙状态
    • US20060262248A1
    • 2006-11-23
    • US11134758
    • 2005-05-20
    • Mitchell BurberryDavid JohnsonCharles RankinDebasis Majumdar
    • Mitchell BurberryDavid JohnsonCharles RankinDebasis Majumdar
    • G02F1/1333
    • G02F1/133707G02F1/1334G02F1/134336G02F1/13718G02F1/1391G02F1/167
    • The present invention relates to a bistable matrix-addressable display element comprising a substrate, a bistable electrically modulated imaging layer having a reflection maximum, at least one conductor, and at least one field-spreading layer between said bistable electrically modulated imaging layer and said at least one conductor, wherein said field-spreading layer has a sheet resistance (SER) of less than 109 Ohms per square and a method of imaging the display comprising identifying an area to be updated of said bistable matrix-addressable display element, wherein said area to be updated comprises rows of pixels; and applying a sequence of drive signals having a 4-phase approach to image said bistable matrix-addressable display element, which may be characterized as a planar reset, left-slope selection method.
    • 双稳态矩阵可寻址显示元件本发明涉及一种双稳态矩阵寻址显示元件,其包括基板,具有反射最大值的双稳态电调制成像层,至少一个导体,以及位于所述双稳态电调制成像层和所述第二导体之间的至少一个场扩展层 至少一个导体,其中所述场扩展层具有小于每平方厘米10欧姆的薄层电阻(SER)和对所述显示器进行成像的方法,包括识别要更新的所述双稳态矩阵的区域 可接地显示元件,其中所述要更新的区域包括像素行; 以及将具有4相方法的驱动信号序列应用于可以表征为平面复位左斜率选择方法的所述双稳态矩阵寻址显示元件的图像。
    • 6. 发明申请
    • Light-scattering color-conversion material layer
    • 光散射色转换材料层
    • US20070201056A1
    • 2007-08-30
    • US11361094
    • 2006-02-24
    • Ronald CokMitchell Burberry
    • Ronald CokMitchell Burberry
    • G03F3/08
    • H01L51/5268B41M5/265B82Y20/00B82Y30/00G02B5/02H01L27/322H01L27/3244H01L2251/5369
    • A light-scattering color-conversion material layer having two sides, comprising first light-scattering particles intermixed with second different color-conversion material particles, wherein the concentration of the light scattering particles is greater towards a first side of the layer relative to the concentration of light-scattering particles towards the opposite side of the layer, and/or wherein the concentration of the color-conversion material particles is less towards the first side of the layer relative to the concentration of color-conversion material particles towards the opposite side of the layer. A method of making such a light-scattering color-conversion material layer is also described, and light emitting devices comprising one or more EL elements formed on a substrate and such a light-scattering color-conversion material layer optically coupled with the EL element.
    • 具有两侧的光散射色彩转换材料层,包括与第二不同颜色转换材料颗粒混合的第一光散射颗粒,其中光散射颗粒的浓度相对于该浓度的第一侧更大 的光散射颗粒朝向层的相对侧,和/或其中颜色转换材料颗粒的浓度相对于颜色转换材料颗粒朝着相对侧的颜色转换材料颗粒的浓度朝向第一侧较小 层。 还描述了制造这种光散射颜色转换材料层的方法,以及包括在基板上形成的一个或多个EL元件和与EL元件光学耦合的光散射颜色转换材料层的发光器件。
    • 7. 发明申请
    • Top-emitter OLED device structure and method
    • 顶置OLED器件的结构和方法
    • US20070200492A1
    • 2007-08-30
    • US11361089
    • 2006-02-24
    • Ronald CokAndrew ArnoldMitchell Burberry
    • Ronald CokAndrew ArnoldMitchell Burberry
    • H01J1/62H01J63/04
    • H01L51/5284H01L27/322H01L51/525H01L51/5253H01L51/5268H01L2251/5315
    • A top-emitting OLED device, comprising: one or more OLEDs formed on a substrate; a light-scattering layer formed over the one or more OLEDs; a transparent cover; one or more color filters formed on the transparent cover; a color-conversion material layer formed over the color filters, or formed over or integral with the light-scattering layer; wherein the substrate is aligned and affixed to the transparent cover so that the locations of the color filters and color conversion material correspond to the location of the OLEDs, and the color-conversion material layer, color filters, and the light-scattering layer are between the cover and substrate, and a low-index gap is formed between the light-scattering layer and the color filters, with no light-scattering layer being positioned between the color conversion material layer and the low-index gap.
    • 一种顶部发射OLED器件,包括:形成在衬底上的一个或多个OLED; 形成在所述一个或多个OLED上的光散射层; 透明盖子 形成在透明盖上的一个或多个滤色器; 形成在滤色器上方,或形成在光散射层之上或与光散射层成一体的颜色转换材料层; 其中基板被对准并固定到透明盖,使得滤色器和颜色转换材料的位置对应于OLED的位置,并且颜色转换材料层,滤色器和光散射层位于 在光散射层和滤色器之间形成覆盖物和衬底以及低折射率间隙,在着色转换材料层和低折射率间隙之间没有光散射层。
    • 8. 发明授权
    • Process for forming an ablation image
    • 用于形成消融图像的工艺
    • US06284441B1
    • 2001-09-04
    • US09515146
    • 2000-02-29
    • Mitchell Burberry
    • Mitchell Burberry
    • G03C516
    • B41M5/24Y10S430/146
    • A process of forming a single color, ablation image comprising imagewise heating by means of a laser in the absence of a separate receiving element, an ablative recording element comprising a support having thereon, in order, a barrier layer and a colorant layer comprising a colorant dispersed in a polymeric binder, the colorant layer having an infrared-absorbing material associated therewith, the laser exposure taking place through the colorant side of the element, and removing the ablated colorant to obtain the image in the ablative recording element, wherein the barrier layer comprises a thin metal film having a UV optical density up to about 3.0.
    • 形成单色消融图像的过程包括在不存在单独的接收元件的情况下通过激光进行成像加热,烧蚀记录元件包括依次具有其上的支撑体,阻挡层和包含着色剂的着色剂层 分散在聚合物粘合剂中,着色剂层具有与其相关联的红外线吸收材料,激光曝光通过元件的着色剂侧发生,并且去除烧蚀的着色剂以在烧蚀记录元件中获得图像,其中阻挡层 包括具有高达约3.0的UV光密度的薄金属膜。