分子掺杂聚合物中通用电流瞬态的两层多重俘获模型

D. Dunlap, L. Schein, A. Tyutnev, V. S. Saenko, E. Pozhidaev, P. Parris, D. Weiss
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引用次数: 33

摘要

多年来,分子掺杂聚合物中电荷输运的机理一直是人们讨论的话题。在本文中,从飞行时间(TOF)技术的新实验变体(称为TOF1a)中获得的数据与具有指数分布的两层多重捕获模型(MTM)的预测结果进行了比较。在最近介绍的TOF1a实验变体中,通过改变电子束激发源的能量,电荷产生深度从表面产生到体产生连续变化。这产生了电流瞬态形状的系统变化,可以与两层MTM的预测相比较。在该模型中,对均匀MTM增加了一个假设,即存在一个微米厚的表面区域,在该区域中,陷阱分布与体相同,但陷阱浓度更高。我们发现一个初始尖峰,一个…
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Two-Layer Mutiple Trapping Model for Universal Current Transients in Molecularly Doped Polymers
The mechanism of charge transport in molecularly doped polymers has been the subject of much discussion over the years. In this paper, data obtained from a new experimental variant of the time-of-flight (TOF) technique, called TOF1a, are compared to the predictions of a two-layer multiple trapping model (MTM) with an exponential distribution of traps. In the recently introduced TOF1a experimental variant, the charge generation depth is varied continuously, from surface generation to bulk generation, by varying the energy of the electron-beam excitation source. This produces systematic changes in the shape of the current transient that can be compared to predictions of the two-layer MTM. In the model, one additional assumption is added to the homogeneous MTM, namely: that there exists a surface region, on the order of a micrometer thick, in which the trap distribution is identical to the bulk, but has a higher trap concentration. We find that the characteristic experimental features of an initial spike, a ...
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