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    • 5. 发明申请
    • ORGANIC ELECTROLUMINESCENT DEVICE AND CONDUCTIVE SUBSTRATE THEREOF
    • 有机电致发光器件及其导电基片
    • US20130306951A1
    • 2013-11-21
    • US13981416
    • 2011-03-22
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • H01L51/52
    • H01L51/5218H01L51/5215H01L51/5275Y10T428/24942
    • An organic electroluminescent device and a conductive substrate thereof are provided. Said conductive substrate includes a glass substrate, an indium tin oxide (ITO) layer and a metal oxide layer located between said glass substrate and said ITO layer. The refractive index of said metal oxide layer ranges between that of said glass substrate and said ITO layer. Due to the metal oxide layer, the refractive index of which ranges between that of the glass substrate and the ITO layer, is inserted into said conductive substrate, when the light extracts between the ITO/metal oxide layer and the metal oxide layer/glass, the critical angle of total reflection increases compared with that without the inserted metal oxide layer. Most part of light extracts out of the interface after refraction, and only small part of light is totally reflected, thus the light extraction enhances.
    • 提供有机电致发光器件及其导电衬底。 所述导电衬底包括玻璃衬底,氧化铟锡(ITO)层和位于所述玻璃衬底和所述ITO层之间的金属氧化物层。 所述金属氧化物层的折射率在所述玻璃基板和所述ITO层的折射率之间。 由于在ITO /金属氧化物层和金属氧化物层/玻璃之间的光提取时,由于金属氧化物层的折射率在玻璃基板和ITO层的折射率之间插入到所述导电基板中, 与没有插入的金属氧化物层的临界角相比,全反射的临界角增加。 大部分光线在折射后从界面中提取出来,只有一小部分光被全部反射,从而提高了光的提取。
    • 6. 发明申请
    • ORGANIC ELECTROLUMINESCENT DEVICE HAVING TERNARY DOPED HOLE TRANSPORTATION LAYER AND PREPARATION METHOD THEREFOR
    • 具有三角孔输送层的有机电致发光器件及其制备方法
    • US20140319506A1
    • 2014-10-30
    • US14347039
    • 2011-11-28
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • H01L51/50H01L51/00H01L51/56
    • H01L51/506H01L51/0002H01L51/0061H01L51/0081H01L51/56
    • Disclosed are an organic electroluminescent device having ternary doped hole transportation layer and a preparation method therefor. The electroluminescent device comprises a conductive anode substrate (1), a ternary doped hole transportation layer (2), a light-emitting layer (3), an electron transportation layer (4), an electron injecting layer (5) and a cathode layer (6), wherein the material for the ternary doped hole transportation layer (2) is a mixed material made by doping a cerium salt and a hole transportation material into a metal compound. The electroluminescent device forms p-doping by doping the cerium salt and the hold transportation material into the metal compound, which improves the ability of injecting and transporting holes, and increases the efficiency of light emission. Since the material for the ternary doped hole transportation layer (2) is predominately a metal compound, the process difficulty and manufacturing costs are reduced, facilitating industrial production and commercial applications.
    • 公开了具有三元掺杂孔输送层的有机电致发光器件及其制备方法。 电致发光器件包括导电阳极衬底(1),三元掺杂空穴传输层(2),发光层(3),电子传输层(4),电子注入层(5)和阴极层 (6),其中所述三元掺杂空穴传输层(2)的材料是通过将铈盐和空穴传输材料掺杂到金属化合物中而制成的混合材料。 电致发光器件通过将铈盐和保持输送材料掺杂到金属化合物中形成p掺杂,这提高了注入和传输空穴的能力,并且提高了发光效率。 由于三元掺杂孔输送层(2)的材料主要是金属化合物,所以工艺难度和制造成本降低,促进了工业生产和商业应用。
    • 7. 发明申请
    • ORGANIC ELECTROLUMINESCENT DEVICE AND FABRICATION METHOD THEREOF
    • 有机电致发光器件及其制造方法
    • US20130240867A1
    • 2013-09-19
    • US13989334
    • 2010-11-26
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • H01L51/52H01L51/56
    • H01L51/5203H01L51/5088H01L51/5206H01L51/56
    • An organic electroluminescent device (OELD) and the fabrication method thereof are disclosed. The OELD comprises an anode(1), a cathode(2) opposite to the anode(1) and a light emission structure(3) between the anode(1) and the cathode(2).The OELD also comprises an insulation layer(4) between the anode(1) and the light emission structure(3) and the insulation layer(4) is attached to the anode(1).The material of the insulation layer(4) is a lithium salt compound and the thickness of the insulation layer(4) is 0.5-5 nm. The insulation layer is arranged on the anode(1) to block the velocity of holes injecting into the light emission structure(3) from the anode, thereby ensuring the consistency in the amount of holes and electrons of the light emission structure(3), highly increasing the recombination probability of electrons and holes and reducing the influence of excess holes to the emission property of the device. Therefore the emission property of the device is highly improved.
    • 公开了一种有机电致发光器件(OELD)及其制造方法。 OELD包括阳极(1),与阳极(1)相对的阴极(2)和在阳极(1)和阴极(2)之间的发光结构(3).OELD还包括绝缘层 4)阳极(1)和发光结构(3)之间,绝缘层(4)安装在阳极(1)上。绝缘层(4)的材料是锂盐化合物,其厚度 绝缘层(4)为0.5-5nm。 绝缘层布置在阳极(1)上以阻挡从阳极注入发光结构(3)的空穴的速度,从而确保发光结构(3)的空穴和电子的一致性, 高度增加电子和空穴的复合概率,并减少过量孔对器件发射性能的影响。 因此,器件的发射性能得到很大改善。