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    • 2. 发明授权
    • Organic thin-film electroluminescent display device, method for driving
the same and method for fabricating the same
    • 有机薄膜电致发光显示装置及其驱动方法及其制造方法
    • US5923119A
    • 1999-07-13
    • US856807
    • 1997-05-15
    • Shintaro HaraHideaki IwanagaAkira GyoutokuTakahiro KomatsuChiharu Wakamatsu
    • Shintaro HaraHideaki IwanagaAkira GyoutokuTakahiro KomatsuChiharu Wakamatsu
    • H01L27/32H01L51/52H05B33/14
    • H01L27/329H01L51/5228
    • An organic thin-film electroluminescent display device comprising a substrate, hole injection electrodes, an organic thin film layer, electron injection electrodes, an electrode-driving IC for driving the electron injection electrodes and the electron injection electrodes and lead wires for connecting the hole injection electrodes and the electron injection electrodes to the electrode-driving IC. The lead wires each include a lead underlayer made of the same material of the hole injection electrode and a lead electroconductive layer formed on the lead underlayer and having a higher electroconductivity than that of the lead underlayer and or the electron injection electrodes each may include an underlayer for the electron injection electrode and an electroconductive layer for the electron injection electrode formed on the underlayer for the electron injection electrode and having a higher electroconductivity than that of the underlayer for the electron. The device injection electrode can prevent fluctuations in luminescence brightness due to different ohmic losses of lead wires connecting the hole injection electrodes and the electron injection electrodes to the electrode-driving IC and due to different electric resistances of electron injection electrodes.
    • 一种有机薄膜电致发光显示装置,包括基板,空穴注入电极,有机薄膜层,电子注入电极,用于驱动电子注入电极的电极驱动IC和电子注入电极以及用于连接空穴注入的引线 电极和电子注入电极连接到电极驱动IC。 引线各自包括由空穴注入电极的相同材料制成的引线底层和形成在引线底层上并具有比引线底层更高的导电性的引线导电层,或者电子注入电极可以包括底层 用于电子注入电极和用于电子注入电极的导电层,形成在电子注入电极的底层上并且具有比用于电子的底层更高的导电性。 器件注入电极可以防止由于将空穴注入电极和电子注入电极连接到电极驱动IC的引线的不同欧姆损耗以及由于电子注入电极的不同电阻而导致的发光亮度的波动。
    • 7. 发明授权
    • Organic electroluminescence element, its manufacturing method, and display device using organic electroluminescence element
    • 有机电致发光元件及其制造方法以及使用有机电致发光元件的显示装置
    • US06195142B1
    • 2001-02-27
    • US08773732
    • 1996-12-24
    • Akira GyotokuHideaki IwanagaShintaro HaraTakahiro KomatsuKei Sakanoue
    • Akira GyotokuHideaki IwanagaShintaro HaraTakahiro KomatsuKei Sakanoue
    • G02F11335
    • H01L51/5253H01L51/0059H01L51/0081H01L51/5243H01L51/5246
    • The invention presents an organic electroluminescence element excellent in long-term durability and reliability, a manufacturing method excellent in mass producibility, and a display device using the organic electroluminescence element. Accordingly, to prevent growth of dark spots in the luminous layer by completely shutting off invasion of moisture or oxygen into an anode or an organic thin film layer, a shield material is adhered to an element by using low melting glass or low melting solder. To fuse the low melting glass or low melting solder used for this purposes, laser or ultrasonic wave is used. The surface of the element is sealed with a protective film in a film thickness of 3 microns to 30 microns, or a protective film composed of two-layer laminate film of insulating compound layer andmetal film. According to these inventions, a highly reliable organic electroluminescence element small in changes in the time course suchas growth of dark sports and lowering of luminance is obtained.
    • 本发明提出了长期耐久性和可靠性优异的有机电致发光元件,大规模生产性优异的制造方法以及使用有机电致发光元件的显示装置。 因此,为了通过完全切断水分或氧气侵入阳极或有机薄膜层来防止发光层中的黑斑生长,通过使用低熔点玻璃或低熔点焊料将屏蔽材料附着在元件上。 为了熔化用于此目的的低熔点玻璃或低熔点焊料,使用激光或超声波。 元件的表面用3微米至30微米的膜厚度的保护膜或由绝缘化合物层和金属膜的两层层压膜构成的保护膜密封。 根据这些发明,可以获得在黑暗运动的生长和亮度的降低等时间过程变化小的高可靠性的有机电致发光元件。