原子与分子物理学报
原子與分子物理學報
원자여분자물이학보
CHINESE JOURNAL OF ATOMIC AND MOLECULAR PHYSICS
2005年
1期
7-15
,共9页
李宏建%朱儒辉%杨兵初%黄伯云%易丹青%何英旋%彭景翠
李宏建%硃儒輝%楊兵初%黃伯雲%易丹青%何英鏇%彭景翠
리굉건%주유휘%양병초%황백운%역단청%하영선%팽경취
有机/有机界面%复合效率%有效势垒高度%无序跳跃模型
有機/有機界麵%複閤效率%有效勢壘高度%無序跳躍模型
유궤/유궤계면%복합효솔%유효세루고도%무서도약모형
Organic/organic interface%Recombination efficiency%Effective barrier heigth%Disordered hopping model
本文建立了双层有机电致发光器件中载流子在有机/有机界面复合的无序跳跃理论模型.计算表明:①内界面处电子和空穴的有效势垒高义决定OLEDs中的电子和空穴密度的分布,而电子与空穴密度又决定了电场强度的大小;且复合效率随着有效势垒高度的增加而增加;②当电压较低时,复合效率随载流子有效跳跃距离的增加而增加;当电压较高时,复合效率随载流子的有效跳跃距离的增加而减少;③当界面场强差较小时,有机层界面场强突变增大,复合效率增大,当界面场强差达临界值时,复合效率反而随着界面场强差的增大而减小.该理论模型可较好地解释相关的实验现象.
本文建立瞭雙層有機電緻髮光器件中載流子在有機/有機界麵複閤的無序跳躍理論模型.計算錶明:①內界麵處電子和空穴的有效勢壘高義決定OLEDs中的電子和空穴密度的分佈,而電子與空穴密度又決定瞭電場彊度的大小;且複閤效率隨著有效勢壘高度的增加而增加;②噹電壓較低時,複閤效率隨載流子有效跳躍距離的增加而增加;噹電壓較高時,複閤效率隨載流子的有效跳躍距離的增加而減少;③噹界麵場彊差較小時,有機層界麵場彊突變增大,複閤效率增大,噹界麵場彊差達臨界值時,複閤效率反而隨著界麵場彊差的增大而減小.該理論模型可較好地解釋相關的實驗現象.
본문건립료쌍층유궤전치발광기건중재류자재유궤/유궤계면복합적무서도약이론모형.계산표명:①내계면처전자화공혈적유효세루고의결정OLEDs중적전자화공혈밀도적분포,이전자여공혈밀도우결정료전장강도적대소;차복합효솔수착유효세루고도적증가이증가;②당전압교저시,복합효솔수재류자유효도약거리적증가이증가;당전압교고시,복합효솔수재류자적유효도약거리적증가이감소;③당계면장강차교소시,유궤층계면장강돌변증대,복합효솔증대,당계면장강차체림계치시,복합효솔반이수착계면장강차적증대이감소.해이론모형가교호지해석상관적실험현상.
A disordered hopping model of charge carriers at the organic/organic interface in bilayer organic lightemitting diodes is presented. The influences of the variation of electric field, barrier height, efficient hopping is determined by the effective barrier height at the organic/organic interface, at the same time the field strength recombination efficiency increases with effective hopping distance and applied voltage increasing, when the applied when the differences of electric strength at the organic/organic interface is very small, with the difference increasing the recombination efficiency increases; on the contrary, when the difference increasing the recombination efficiency increases; on the contrary, when the difference of electric strength reaches the critical value, recombination efficiency decreases with the increase of differences of electric strength. This model might explain the relative experimental phenomena.