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    • 6. 发明申请
    • CATHODE STRUCTURE FOR FLEXIBLE ORGANIC LIGHT EMITTING DIODE (OLED) DEVICE
    • 柔性有机发光二极管(OLED)器件的阴极结构
    • WO2013003390A1
    • 2013-01-03
    • PCT/US2012/044278
    • 2012-06-27
    • GENERAL ELECTRIC COMPANYAURONGZEB, Deeder, MohammadHELLER, Christian, Maria Anton
    • AURONGZEB, Deeder, MohammadHELLER, Christian, Maria Anton
    • H01L27/32H01L51/52
    • H01L27/32H01L51/5221H01L51/529H01L2251/5338H01L2251/5361H01L2251/558
    • A method for making a flexible OLED lighting device includes forming a plurality of OLED elements (14) on a flexible planar substrate, wherein at least one of the OLED elements (14) includes a continuous respective anode layer formed over the substrate (12, one or more organic light emitting materials formed over the anode layer, a cathode layer formed over the light emitting materials, and an encapsulating protective cover formed over the cathode layer. At least one of the OLED elements defines a continuous light region (26) on the substrate, wherein the substrate and combination of OLED elements define an active light area (30). The active light area is bendable from a flat planar configuration to a bend configuration having a design bending radius (32). The thickness of the cathode layer is formed between a minimum thickness value and a maximum thickness value as a function of the size of the active light area and the design bending radius. An OLED in accordance with these aspects is also provided.
    • 一种用于制造柔性OLED照明装置的方法包括在柔性平面基板上形成多个OLED元件(14),其中至少一个OLED元件(14)包括形成在基板上的连续的相应的阳极层(12,一个 或更多的形成在阳极层上的有机发光材料,在发光材料上形成的阴极层,以及形成在阴极层上的封装保护盖。至少一个OLED元件限定了连续的光区域 衬底,其中所述衬底和所述OLED元件的组合限定有源光区域(30),所述有源光区域可从平坦平面构型弯曲成具有设计弯曲半径(32)的弯曲构造,所述阴极层的厚度为 在最小厚度值和最大厚度值之间形成,作为有源光面积的大小和设计弯曲半径的函数,根据这些方面i的OLED 也提供了。
    • 7. 发明申请
    • ENCAPSULATED OPTOELECTRONIC DEVICE AND METHOD FOR MAKING THE SAME
    • 封装的光电装置及其制造方法
    • WO2011016923A1
    • 2011-02-10
    • PCT/US2010/040126
    • 2010-06-28
    • GENERAL ELECTRIC COMPANYFARQUHAR, Donald, SetonHERZOG, Michael, ScottHELLER, Christian, Maria, Anton
    • FARQUHAR, Donald, SetonHERZOG, Michael, ScottHELLER, Christian, Maria, Anton
    • H01L51/52
    • H01L51/5246H01L27/3202H01L27/3204H01L51/0097H01L51/5203H01L51/524H01L51/5243
    • An encapsulated optoelectronic device includes: a first banner layer; an electro!υminescence device configured to be coupled to the first barrier layer, and comprising a substrate and an electroluminescence element both defining a lateral side, and the electroluminescence element comprising a first electrode disposed on the substrate, a second electrode, and an optoelectronically active layer disposed between the first and second electrodes; a second barrier layer configured to be coupled to the electroluminescence device; and an adhesive configured to locate between and connect the first and second barrier layers, and at least to be coupled to the lateral side of the electroluminescence device to seal the electroluminescence device between the first and second barrier layers; a first conductive area disposed on the first harrier layer, located between the first and second barrier layers, and configured to be electrically coupled to the first electrode and electrically insulated from the second electrode and a second conductive area, the second conductive area disposed on the first barrier layer, located between the first and second barrier layers, and configured to be electrically coupled to the second electrode and electrically insulated from the first electrode and the first conductive area. A method for making the encapsulated optoelectronic device is also presented.
    • 封装的光电器件包括:第一横幅层; 配置为耦合到第一阻挡层的电致发光器件,并且包括限定侧面的衬底和电致发光元件,并且电致发光元件包括设置在衬底上的第一电极,第二电极和光电子 有源层,设置在第一和第二电极之间; 被配置为耦合到所述电致发光器件的第二阻挡层; 以及粘合剂,其被配置为定位在所述第一和第二阻挡层之间并连接所述第一和第二阻挡层,并且至少与所述电致发光器件的侧面耦合以密封所述第一和第二阻挡层之间的所述电致发光器件; 第一导电区域,设置在第一阻挡层上,位于第一和第二阻挡层之间,并且被配置为电耦合到第一电极并与第二电极和第二导电区域电绝缘,第二导电区域设置在第一导电区域上 第一阻挡层,位于第一和第二阻挡层之间,并且被配置为电耦合到第二电极并与第一电极和第一导电区域电绝缘。 还提出了制造封装的光电子器件的方法。