空间电荷限制光电流。

Space-charge limited photocurrent.

作者信息

Mihailetchi V D, Wildeman J, Blom P W M

机构信息

Molecular Electronics, Materials Science Centre, University of Groningen, Nijenborgh 4, NL-9747 AG Groningen, The Netherlands.

出版信息

Phys Rev Lett. 2005 Apr 1;94(12):126602. doi: 10.1103/PhysRevLett.94.126602.

DOI:10.1103/PhysRevLett.94.126602

PMID:15903944

Abstract

In 1971 Goodman and Rose predicted the occurrence of a fundamental electrostatic limit for the photocurrent in semiconductors at high light intensities. Blends of conjugated polymers and fullerenes are an ideal model system to observe this space-charge limit experimentally, since they combine an unbalanced charge transport, long lifetimes, high charge carrier generation efficiencies, and low mobility of the slowest charge carrier. The experimental photocurrents reveal all the characteristics of a space-charge limited photocurrent: a one-half power dependence on voltage, a three-quarter power dependence on light intensity, and a one-half power scaling of the voltage at which the photocurrent switches into full saturation with light intensity.

摘要

1971年，古德曼和罗斯预测，在高光强度下，半导体中的光电流会出现一个基本的静电极限。共轭聚合物和富勒烯的混合物是通过实验观察这一空间电荷极限的理想模型系统，因为它们兼具电荷传输不平衡、长寿命、高电荷载流子产生效率以及最慢电荷载流子低迁移率的特点。实验测得的光电流展现出空间电荷限制光电流的所有特征：光电流与电压呈二分之一次幂关系，与光强呈四分之三次幂关系，并且光电流切换到完全饱和时的电压与光强呈二分之一次幂比例关系。

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空间电荷限制光电流。

Space-charge limited photocurrent.

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