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    • 1. 发明授权
    • Display device using an organic electroluminescence device having resonant cavity
    • 使用具有谐振腔的有机电致发光元件的显示装置
    • US07710025B2
    • 2010-05-04
    • US11692435
    • 2007-03-28
    • Jiro YamadaTatsuya SasaokaTakashi Hirano
    • Jiro YamadaTatsuya SasaokaTakashi Hirano
    • H05B33/02H01L51/52
    • H01L51/5265H01L27/322H01L2251/5315H05B33/22Y10S428/917
    • In an organic EL device having a first electrode of a light reflective material, organic layer including an organic light emitting layer, semitransparent reflection layer, and second electrode of a transparent material that are stacked sequentially, and so configured that the organic layer functions as a cavity portion of a cavity structure, light that resonates in a certain spectral width (wavelength λ) is extracted by so configuring that optical path length L becomes minimum in a range satisfying (2L)/λ+Φ((2π)=m (m is an integer) where the phase shift produced in light generated in the organic light emitting layer when reflected by opposite ends of the cavity portion is Φ radians, L is optical path length of the cavity portion, and λ is the peak wavelength of the spectrum of part of light to be extracted.
    • 在具有光反射材料的第一电极的有机EL器件中,有机层包括依次层叠的有机发光层,半透明反射层和透明材料的第二电极,并且被配置为有机层用作 通过使得光程长度L在满足(2L)/λ+Φ((2&pgr;)= m(2))的范围内变为最小的情况下,提取谐振腔结构的空腔部分,以一定的光谱宽度(波长λ) m是整数),其中在由空腔部分的相对端反射时在有机发光层中产生的光产生的相移为Φ弧度,L为空腔部分的光程长度,λ为峰值波长 要提取的部分光谱。
    • 2. 发明授权
    • Method of manufacturing organic el display
    • 有机EL显示器制造方法
    • US6120338A
    • 2000-09-19
    • US415369
    • 1999-10-08
    • Takashi HiranoTatsuya SasaokaMitsunobu SekiyaNaoki SanoTetsuo Nakayama
    • Takashi HiranoTatsuya SasaokaMitsunobu SekiyaNaoki SanoTetsuo Nakayama
    • H01L27/32H01L51/50H01L51/56H05B33/10H05B33/12H05B33/14H05B33/22
    • H01L51/56H01L27/3281H05B33/10H01L27/3211
    • The present invention provides a method of manufacturing an organic EL display capable of decreasing the resistance of scanning-side electrodes, and improving the efficiency of utilization of light emitted in organic layers. In the manufacturing method, stripe first electrodes made of a transparent conductive material are formed in parallel on a transparent substrate, and then an insulation layer is formed on the transparent substrate with the apertures formed above the first electrodes. An organic film 24 composed of a film of an organic luminescent material, a second electrode material film and a protecting film is laminated in this order on the transparent substrate to cover the insulation layer, and then independent island resist patterns are formed on the protecting film. Then, a laminated film composed of the organic film, the second electrode material film and the protecting film is etched using the resist patterns as a mask to pattern independent island laminations each composed of an organic layer, a second electrode, and a protecting layer.
    • 本发明提供一种制造能够降低扫描侧电极的电阻的有机EL显示器的方法,并且提高了在有机层中发射的光的利用效率。 在制造方法中,由透明导电材料制成的条纹第一电极在透明基板上平行地形成,然后在透明基板上形成绝缘层,其中孔形成在第一电极上。 将由有机发光材料膜,第二电极材料膜和保护膜构成的有机膜24按顺序层叠在透明基板上以覆盖绝缘层,然后在保护膜上形成独立的岛状抗蚀剂图案 。 然后,使用抗蚀剂图案作为掩模蚀刻由有机膜,第二电极材料膜和保护膜构成的层叠膜,以对由各有机层,第二电极和保护层构成的独立的岛状叠层进行图案化。
    • 3. 发明授权
    • Organic electroluminescence display
    • 有机电致发光显示
    • US06380673B1
    • 2002-04-30
    • US09391070
    • 1999-09-16
    • Mitsunobu SekiyaTakashi HiranoTetsuo NakayamaNaoki SanoTatsuya Sasaoka
    • Mitsunobu SekiyaTakashi HiranoTetsuo NakayamaNaoki SanoTatsuya Sasaoka
    • H01J162
    • H01L27/3281H01L27/3244
    • An organic EL display that realizes low electric power consumption and display with high brightness by decreasing the resistance of the electrode on the scanning side is provided. The display device of the invention includes a substrate, first electrodes in a stripe form comprising a transparent conductive material formed on the substrate, an insulating film having prescribed openings formed on the first electrodes, an organic layer comprising an organic light emitting material formed on the openings and the insulating film, and second electrodes in of a stripe form formed on the organic layer, wherein the first electrodes comprise a material having a large resistance than a resistance of the second electrodes, the first electrodes and the seconds electrode are arranged to cross each other, the organic layer is formed only in the crossing part of the first electrodes and the second electrodes, a first circuit supplying a first electric current is connected to the first electrodes, and a second circuit supplying a second electric current larger than the first electric current is connected to the second electrodes.
    • 提供一种有机EL显示器,其通过降低扫描侧的电极的电阻来实现低功耗并且以高亮度显示。 本发明的显示装置包括:基板,形成在基板上的透明导电材料的带状的第一电极,形成在第一电极上的规定开口的绝缘膜,形成在第一电极上的有机发光材料的有机层 开口和绝缘膜,以及形成在有机层上的条纹形式的第二电极,其中第一电极包括具有比第二电极的电阻大的电阻的材料,第一电极和秒电极布置成交叉 彼此之间仅在第一电极和第二电极的交叉部分形成有机层,提供第一电流的第一电路连接到第一电极,第二电路提供大于第一电流的第二电流 电流连接到第二电极。
    • 5. 发明授权
    • Display device
    • 显示设备
    • US07218049B2
    • 2007-05-15
    • US11379323
    • 2006-04-19
    • Jiro YamadaTatsuya SasaokaTakashi Hirano
    • Jiro YamadaTatsuya SasaokaTakashi Hirano
    • H05B33/02H01L51/52
    • H01L51/5265H01L27/322H01L2251/5315H05B33/22Y10S428/917
    • In an organic EL device having a first electrode of a light reflective material, organic layer including an organic light emitting layer, semitransparent reflection layer, and second electrode of a transparent material that are stacked sequentially, and so configured that the organic layer functions as a cavity portion of a cavity structure, light that resonates in a certain spectral width (wavelength λ) is extracted by so configuring that optical path length L becomes minimum in a range satisfying (2L)/λ+Φ((2π)=m (m is an integer) where the phase shift produced in light generated in the organic light emitting layer when reflected by opposite ends of the cavity portion is Φ radians, L is optical path length of the cavity portion, and λ is the peak wavelength of the spectrum of part of light to be extracted.
    • 在具有光反射材料的第一电极的有机EL器件中,有机层包括依次堆叠的有机发光层,半透明反射层和透明材料的第二电极,并且被配置为有机层用作 通过使得光程长度L在满足(2L)/λ+ Phi((2pi)= m(m))的范围内变为最小的方式来提取腔结构的空腔部分,以一定的光谱宽度(波长λ)谐振的光 是整数),其中在由空腔部分的相对端反射时在有机发光层中产生的光产生的相移是Phi弧度,L是空腔部分的光程长度,λ是光谱的峰值波长 部分光被提取。
    • 10. 发明申请
    • DISPLAY DEVICE
    • 显示设备
    • US20070228943A1
    • 2007-10-04
    • US11692435
    • 2007-03-28
    • Jiro YamadaTatsuya SasaokaTakashi Hirano
    • Jiro YamadaTatsuya SasaokaTakashi Hirano
    • H01J1/63
    • H01L51/5265H01L27/322H01L2251/5315H05B33/22Y10S428/917
    • In an organic EL device having a first electrode of a light reflective material, organic layer including an organic light emitting layer, semitransparent reflection layer, and second electrode of a transparent material that are stacked sequentially, and so configured that the organic layer functions as a cavity portion of a cavity structure, light that resonates in a certain spectral width (wavelength λ) is extracted by so configuring that optical path length L becomes minimum in a range satisfying (2L)/λ+Φ((2π)=m (m is an integer) where the phase shift produced in light generated in the organic light emitting layer when reflected by opposite ends of the cavity portion is Φ radians, L is optical path length of the cavity portion, and λ is the peak wavelength of the spectrum of part of light to be extracted.
    • 在具有光反射材料的第一电极的有机EL器件中,有机层包括依次堆叠的有机发光层,半透明反射层和透明材料的第二电极,并且被配置为有机层用作 通过使得光程长度L在满足(2L)/λ+ Phi((2pi)= m(m))的范围内变为最小的方式来提取腔结构的空腔部分,以一定的光谱宽度(波长λ)谐振的光 是整数),其中在由空腔部分的相对端反射时在有机发光层中产生的光产生的相移是Phi弧度,L是空腔部分的光程长度,λ是光谱的峰值波长 部分光被提取。