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一种新型有机电致微腔结构的双模发射
引用本文:马凤英,金长清,秦莉,刘云,初国强,关中树,王立军. 一种新型有机电致微腔结构的双模发射[J]. 光学学报, 2004, 24(1): 5-78
作者姓名:马凤英  金长清  秦莉  刘云  初国强  关中树  王立军
作者单位:1. 中国科学院长春光学精密机械与物理研究所,长春,130033;中国科学院激发态物理开放实验室,长春,130033
2. 中国科学院长春光学精密机械与物理研究所,长春,130033
3. 中国科学院激发态物理开放实验室,长春,130033
基金项目:国家自然科学基金重大研究计划 (90 10 10 17),国家自然科学基金 (10 174 0 77)资助课题
摘    要:采用结构Glass/DBR/ITO/NPB/NPB:Alq/Alq/Al制作了有机微腔电致发光器件。将空穴传输材料与发光材料以一定比例混合作为发光层,为了便于对比,在不改变有机层的膜厚的情况下同时制作了传统的异质结微腔器件,发现两种器件的发光光谱有很大不同,器件的复合效率与传统的异质结器件相比也得到了很大提高,这是因为将两种有机材料混合能消除界面势垒,提高器件的复合效率,从而提高了器件的发光性能,实现了微腔双模发射,且两个模式的半峰全宽分别为8nm和12nm。通过进一步优化器件结构可以实现微腔白光发射。

关 键 词:有机电致发光器件 微腔结构 双模发射 色坐标 白光发射 空穴传输材料 复合效率
收稿时间:2002-11-27

Double Mode Emitting from a Novel Organic Microcavity Diode
Ma Fengying , Jin Changqing Qin Li Liu Yun Chu Guoqiang Guan Zhongshu Wang Lijun , Changchun Institute of Optics,Fine Mechanics and Physics,The Chinese Academy of Sciences,Changchun Laboratory of Excited Processes,The Chinese Academy of Sciences,Changchun. Double Mode Emitting from a Novel Organic Microcavity Diode[J]. Acta Optica Sinica, 2004, 24(1): 5-78
Authors:Ma Fengying    Jin Changqing Qin Li Liu Yun Chu Guoqiang Guan Zhongshu Wang Lijun    Changchun Institute of Optics  Fine Mechanics  Physics  The Chinese Academy of Sciences  Changchun Laboratory of Excited Processes  The Chinese Academy of Sciences  Changchun
Affiliation:Ma Fengying 1,2 Jin Changqing 1 Qin Li 1 Liu Yun 1 Chu Guoqiang 1 Guan Zhongshu 2 Wang Lijun 1,2 1 Changchun Institute of Optics,Fine Mechanics and Physics,The Chinese Academy of Sciences,Changchun 130033 2 Laboratory of Excited Processes,The Chinese Academy of Sciences,Changchun 130033
Abstract:The organic microcavity light emitting diode was fabricated using structure Glass/DBR/ITO/NPB/NPB:Alq/Al. Here NPB and Alq were mixed as the emitting material. In order to compare its performances with those of conventional MOLEDs,a heterostructure MOLED was also fabricated. There are many differences between the spectrum of the original microcavity light emitting diode and the conventional one. The voltage barrier was eliminated by mixing hole transport material and emitting material,thus recombination efficiency was enhanced and double modes emitting were realized and their FWHM (full width half maximum) were 8 nm and 12 nm respectively. White light emission from organic microcavity can be realized by optimizing the device structure and adopting new materials.
Keywords:organic light emitting diode  microcavity  white light emission  CIE coordinates
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