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    • 1. 发明授权
    • Organic EL device
    • 有机EL器件
    • US08227980B2
    • 2012-07-24
    • US12736454
    • 2009-03-31
    • Norifumi KawamuraKohichi MoriHideyuki KobayashiHiroshi Takehisa
    • Norifumi KawamuraKohichi MoriHideyuki KobayashiHiroshi Takehisa
    • H01J1/62
    • H01L51/5203
    • The organic EL device (1) comprises: a substrate (2); a light emitting unit formed on the substrate (2), and including an anode (11), a cathode (7) having anelectric resistance lower than that of the anode (11), an organic light emitting layer (6) formed between the anode (11) and the cathode (7); an anode terminal (12) formed on the substrate (2) and connected to the anode (11), and a cathode terminal (16) formed on the substrate (2) and connected to the cathode (7). A surface of the anode terminal (12) connected to the external is applied into an anode connecting surface (12a), and a surface of the cathode terminal (16) connected to the external is applied into a cathode connecting face (16a). The size (S1) of the anode connecting surface (12a) is larger than the size (S2) of the cathode connecting surface (16a).
    • 有机EL器件(1)包括:衬底(2); 形成在所述基板(2)上的发光单元,并且包括阳极(11),具有比所述阳极(11)低的电阻的阴极(7);形成在所述阳极之间的有机发光层, (11)和阴极(7); 形成在基板(2)上并连接到阳极(11)的阳极端子(12)和形成在基板(2)上并连接到阴极(7)的阴极端子(16)。 连接到外部的阳极端子(12)的表面被施加到阳极连接表面(12a)中,并且连接到外部的阴极端子(16)的表面被施加到阴极连接面(16a)。 阳极连接面(12a)的尺寸(S1)大于阴极连接面(16a)的尺寸(S2)。
    • 2. 发明申请
    • ORGANIC EL DEVICE
    • 有机EL设备
    • US20110025197A1
    • 2011-02-03
    • US12736454
    • 2009-03-31
    • Norifumi KawamuraKohichi MoriHideyuki KobayashiHiroshi Takehisa
    • Norifumi KawamuraKohichi MoriHideyuki KobayashiHiroshi Takehisa
    • H01L51/52
    • H01L51/5203
    • The organic EL device (1) comprises: a substrate (2); a light emitting unit formed on the substrate (2), and including an anode (11), a cathode (7) having anelectric resistance lower than that of the anode (11), an organic light emitting layer (6) formed between the anode (11) and the cathode (7); an anode terminal (12) formed on the substrate (2) and connected to the anode (11), and a cathode terminal (16) formed on the substrate (2) and connected to the cathode (7). A surface of the anode terminal (12) connected to the external is applied into an anode connecting surface (12a), and a surface of the cathode terminal (16) connected to the external is applied into a cathode connecting face (16a). The size (S1) of the anode connecting surface (12a) is larger than the size (S2) of the cathode connecting surface (16a).
    • 有机EL器件(1)包括:衬底(2); 形成在所述基板(2)上的发光单元,并且包括阳极(11),具有比所述阳极(11)低的电阻的阴极(7);形成在所述阳极之间的有机发光层, (11)和阴极(7); 形成在基板(2)上并连接到阳极(11)的阳极端子(12)和形成在基板(2)上并连接到阴极(7)的阴极端子(16)。 连接到外部的阳极端子(12)的表面被施加到阳极连接表面(12a)中,并且连接到外部的阴极端子(16)的表面被施加到阴极连接面(16a)。 阳极连接面(12a)的尺寸(S1)大于阴极连接面(16a)的尺寸(S2)。
    • 4. 发明授权
    • Organic electroluminescent device, group of organic electroluminescent devices
    • 有机电致发光器件,有机电致发光器件组
    • US06589673B1
    • 2003-07-08
    • US09675640
    • 2000-09-29
    • Junji KidoJun EndohAkira YokoiKohichi Mori
    • Junji KidoJun EndohAkira YokoiKohichi Mori
    • H01J162
    • H01L51/5052H01L27/3211H01L51/0077H01L51/0081H01L51/5012H01L51/5092H01L2251/308Y10S428/917Y10T428/24942Y10T428/2495
    • An organic electroluminescent device includes at least one luminescent layer, constituted from an organic compound, provided between a cathode electrode and an anode electrode opposed to the cathode electrode; and an organic compound layer doped with a metal capable of acting as an electron-donating dopant, the organic compound layer being disposed as a metal doping layer in an interfacial surface with the cathode electrode. An emission spectrum of light emitted from the organic electroluminescent device is controlled by varying a layer thickness of the metal doping layer. Alternatively, the organic compound layer can be doped with an electron-accepting compound, disposed as a chemical doping layer in an interfacial surface with the anode electrode on the luminescent layer side; wherein an emission spectrum of light emitted from the organic electroluminescent device is controlled by varying a layer thickness of the chemical doping layer.
    • 有机电致发光器件包括设置在与阴极相对的阴极电极和阳极电极之间的由有机化合物构成的至少一个发光层; 以及掺杂有能够作为给电子掺杂剂的金属的有机化合物层,所述有机化合物层作为金属掺杂层设置在与所述阴极电极的界面中。 通过改变金属掺杂层的层厚来控制从有机电致发光器件发射的光的发射光谱。 或者,有机化合物层可以在与发光层侧的阳极电极的界面中设置为化学掺杂层的电子接受性化合物, 其中通过改变化学掺杂层的层厚度来控制从有机电致发光器件发射的光的发射光谱。