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    • 2. 发明授权
    • Tuned microcavity color OLED display
    • 调谐微腔彩色OLED显示屏
    • US06861800B2
    • 2005-03-01
    • US10368513
    • 2003-02-18
    • Yuan-Sheng TyanGiuseppe FarruggiaJoel D. Shore
    • Yuan-Sheng TyanGiuseppe FarruggiaJoel D. Shore
    • H05B33/26H01L27/32H01L51/50H01L51/52H05B33/24H05B33/28H01J1/62
    • H01L51/5265H01L27/3206H01L51/5206H01L51/5218H01L51/5221H01L51/5234H01L51/5275
    • A color organic light-emitting display device having an array of pixels divided into at least two different color pixel sets each color pixel set emitting a different predetermined color light over a common substrate, wherein each pixel in the array includes a metallic bottom-electrode layer disposed over the substrate and a metallic electrode layer spaced from the metallic bottom-electrode layer; wherein the material for reflective metallic electrode layer includes Ag, Au, Al, or alloys thereof, the material for the semitransparent metallic electrode layer includes Ag, Au, or alloys thereof; and wherein the thickness of the semitransparent metallic electrode layer, the combined thickness of the organic layers and the transparent conductive phase-layer, and the placement of the light-emitting layer are selected so that each pixel in the display forms a tuned microcavity OLED device having an emission output efficiency above that of a comparable OLED device without the microcavity.
    • 一种彩色有机发光显示装置,其具有被划分为至少两个不同颜色像素组的像素阵列,每个彩色像素组在公共基板上发射不同的预定颜色光,其中阵列中的每个像素包括金属底电极层 设置在所述基板上方的金属电极层和与所述金属底电极层间隔开的金属电极层; 其中所述反射金属电极层的材料包括Ag,Au,Al或其合金,所述半透明金属电极层的材料包括Ag,Au或其合金; 并且其中选择半透明金属电极层的厚度,有机层和透明导电相层的组合厚度以及发光层的布置,使得显示器中的每个像素形成调谐微腔OLED器件 其发射输出效率高于不具有微腔的可比OLED器件的发射效率。
    • 7. 发明申请
    • Microcavity oled device
    • 微腔装置
    • US20050037232A1
    • 2005-02-17
    • US10640907
    • 2003-08-14
    • Yuan-Sheng TyanGiuseppe FarruggiaJoel ShoreJoseph DeatonSteven Van Slyke
    • Yuan-Sheng TyanGiuseppe FarruggiaJoel ShoreJoseph DeatonSteven Van Slyke
    • H01J1/62H01L27/32H01L51/00H01L51/52H05B33/00
    • H01L51/5265H01L27/3211
    • A microcavity OLED device including a substrate; a metallic bottom-electrode layer disposed over the substrate; a metallic top-electrode layer spaced from the metallic bottom-electrode layer; and an organic EL medium structure having a defined thickness, and including a light-emitting layer comprising a host material and at least one dopant disposed between the top-electrode layer and the bottom-electrode layer; wherein one of the metallic electrode layers is light transmissive and the other one is essentially opaque and reflective; wherein the material for reflective metallic electrode layer includes Ag, Au, Al, or alloys thereof, and the material for the light transmissive metallic electrode layer includes Ag, Au, or alloys thereof. The at least one dopant is selected to generate one of red, green, or blue light in the light-emitting layer. The defined thickness of the EL medium structure is selected so that the microcavity OLED device is tuned for emission of one of red, green, or blue light through the light transmissive electrode layer.
    • 一种微腔OLED器件,包括:衬底; 设置在所述基板上的金属底电极层; 与金属底电极层间隔开的金属顶电极层; 以及具有规定厚度的有机EL介质结构,并且包括包含主体材料的发光层和设置在所述顶部电极层和所述底部电极层之间的至少一种掺杂剂的发光层; 其中所述金属电极层之一是透光的,另一个基本上是不透明的和反射性的; 其中反射金属电极层的材料包括Ag,Au,Al或其合金,并且用于透光金属电极层的材料包括Ag,Au或其合金。 选择至少一种掺杂剂以在发光层中产生红色,绿色或蓝色光中的一种。 选择限定的EL介质结构的厚度,使得微腔OLED器件被调谐以通过透光电极层发射红色,绿色或蓝色光中的一种。