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OLED中NEA材料复合阴极影响电子注入效率的作用机理 被引量:2

Action Mechanism of NEA Composite Cathode Influencing Electron Injection Efficiency in OLED
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摘要 负电子亲和势材料具有较窄的禁带宽度、功函数低,在OLED的工作电场强范围内可以发射电子,同时在吸收有机材料所发光子能量后可以产生光电子发射,再次注入有机层,提高了电子注入效率。介绍了负电子亲和势材料的形成,理论上分析了其对有机半导体能级的影响以及如何改善有机电致发光器件中电子注入水平,从而提高发光效率。 The negative electron affinity material has the narrow forbidden gap and lower work function. It can launch the electron in the OLED work electricity field intensity scope. Simultaneously, after the absorption of the photon energy from the organic material, it can also produce photoelectrons and pour them into the organic layer once more, thus it raise the electron injection efficiency. This paper introduces the negative electron affinity material's formation, and analyzes theoretically the influence of the NEA material on the organic semiconductor energy level as well as how it improves the organic electroluminescence device's injection level to raise the luminescence efficiency.
作者 袁桃利 王秀峰 牟强
机构地区 陕西科技大学电气与信息工程学院 陕西科技大学材料科学与工程学院
出处 《材料导报》 EI CAS CSCD 北大核心 2008年第8期14-15,24,共3页 Materials Reports
基金 国家自然科学基金资助项目(No:20476054) 陕西省教育厅专项研究基金资助项目(No:03JK1610)
关键词 负电子亲和势 功函数 发光效率 光电子 negative electron affinity, work function, luminescence efficiency, photoelectron
分类号 TB322 [一般工业技术—材料科学与工程] TN304.23 [电子电信—物理电子学]
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参考文献6

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共引文献3

同被引文献21

  • 1Denghui Xu,Zhenbo Deng,Ying Xu. An anode with aluminum doped on zinc oxide thin films for organic light emiting devices[J].Physics LettersA,2005,(1-3):148-152.
  • 2Sangjin Hong,Giseok Heo,Bumho Choi. Boron ion implantation on Al-doped ZnO films for OLEDs transparent conducting electrodes[J].IEEE Nanotechnology Materials and Devices Conference,2006.470-471.
  • 3J.Ouerfelli,S.Ouro Djobo,J.C.Bernède. Organic light emitting diodes using fluorine doped tin oxide thin films,deposited by chemical spray pyrolysis,as anode[J].Materials Chemistry and Physics,2008.198-201.
  • 4Shuping Pang,Yenny Hernandez,Xinliang Feng. Graphene as transparent electrode material for organic electronic[J].Advanced Materials,2011,(23):2779-2795.
  • 5秦国刚;孟虎;戴伦.以铜/石墨烯复合电极为阳极的半导体光电器件:[P]中国,CN102881841A,2013.
  • 6Jianfeng Li,Liangbing Hu,Lian Wang. Orangic light-emitting diodes having carbon nanotube anodes[J].NANO LETTERS,2006,(11):2472-2477.
  • 7Eric C-W.Ou,Liangbing Hu,Gan Ching Ruey Raymond. Surface-modified nanotube anodes for high performance organic light-emitting diode[J].American Chemical Society,2009,(08):2258-2264.
  • 8Sung-woo cho,Jin-A Jeong,Jung-Hyeok Bae. Highly flexible,transparent,and low resistance indium zinc oxide-Ag-indium zinc oxide multilayer anode on polyethylene terephthalate substrate for flexible organic light-emitting diodes[J].THIN SOLID FILMS,2008.7881-7885.
  • 9Yuncheol Han,Myung Sub Lim,Junhong Park. ITOfree flexible organic light-emitting diodes using ZnS/Ag/ MoO3 anode incorporating a quasi-perfect Ag thin film[J].ORGANIC ELECTRONICS,2013.3437-3443.
  • 10X.L.Zhu,J.X.Sun,H.J.Peng. Efficient organic lightemitting diodes using polycrystalline silicon thin films as semitransparent anode[J].Applied Physics Letters,2005.083504.

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材料导报
2008年 第8期

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