Characterization of charge generation and transport in a photorefractive organic glass: comparison between conventional and holographic time-of-flight experiments

S. J. Zilker; M. Grasruck; J. Wolff; S. Schloter; A. Leopold; M. A. Kolchenko; U. Hofmann; A. Schreiber; P. Strohriegl; C. Hohle; D. Haarer

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Characterization of charge generation and transport in a photorefractive organic glass: comparison between conventional and holographic time-of-flight experiments

机译：光折射有机玻璃中电荷产生和传输的特征：常规和全息飞行时间实验的比较

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Photorefractive organic systems presently show much longer response times than their inorganic counterparts. The origin of this limitation is not yet fully understood. We present a detailed investigation of the photoelectric processes involved in the photorefractive effect, namely charge generation and charge transport. A comparison between conventional (TOF) and holographic time-of-flight (HTOF) experiments, which were used to determine the charge carrier mobility, is presented. The mobility determined by TOF is shown to depend on the sample thickness. The results show that charge carrier generation and transport are not the limiting factors for the cw-response time of holographic experiments on this system.

机译：目前，光折变有机系统的响应时间比无机折光系统长得多。此限制的起源尚未完全了解。我们目前对涉及光折变效应的光电过程的详细研究，即电荷产生和电荷传输。介绍了用于确定载流子迁移率的常规（TOF）实验与全息飞行时间（HTOF）实验之间的比较。由TOF确定的迁移率显示出取决于样品的厚度。结果表明，电荷载流子的产生和传输不是该系统全息实验的顺时针响应时间的限制因素。

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《Chemical Physics Letters》 |1999年第6期|共6页
作者
S. J. Zilker; M. Grasruck; J. Wolff; S. Schloter; A. Leopold; M. A. Kolchenko; U. Hofmann; A. Schreiber; P. Strohriegl; C. Hohle; D. Haarer;
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中图分类物理化学（理论化学）、化学物理学;
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1. Characterization of charge generation and transport in a photorefractive organic glass: comparison between conventional and holographic time-of-flight experiments [J] . S. J. Zilker, M. Grasruck, J. Wolff, Chemical Physics Letters . 1999,第5a6期

机译：光折射有机玻璃中电荷产生和传输的特征：常规和全息飞行时间实验的比较
2. Influence of the dispersivity of charge transport on the holographic properties of organic photorefractive materials [J] . T. Jakob, S. Schloter, U. Hofmann, The Journal of Chemical Physics . 1999,第23期

机译：电荷传输的分散性对有机光折变材料全息性能的影响
3. Charge-retraction time-of-flight measurement for organic charge transport materials [J] . Jason U. Wallace, Ralph H. Young, Ching W. Tang, Applied Physics Letters . 2007,第15期

机译：有机电荷传输材料的电荷退避飞行时间测量
4. Photoelectric properties of organic photorefractive glasses: charge transport and its relation to the holographic response [C] . S.J.Zilker, S.Schloter, A.Leopold, Seventh Topical Meeting on Photorefractive Materials, Effects and Devices, June 27-30, 1999, Elsinore, Denmark . 1999

机译：有机光折射玻璃的光电性能：电荷传输及其与全息响应的关系
5. Charge-carrier Generation, Transport, and Collection in Polymer-based Organic Solar Cells. [D] . Tremolet de Villers, Bertrand J.-F. 2011

机译：聚合物基有机太阳能电池中的载流子产生，传输和收集。
6. Downscaling the Sample Thickness to Sub-Micrometers by Employing Organic PhotovoltaicMaterials as a Charge-Generation Layer in the Time-of-Flight Measurement [O] . Shun-Wei Liu, Chih-Chien Lee, Wei-Cheng Su, -1

机译：通过使用有机光伏将样品厚度缩减至亚微米材料在飞行时间测量中作为电荷产生层
7. THE ROLE OF CONTACTS IN THE GENERATION OF CHARGE-DENSITY-WAVE-CONDUCTICN NOISE(EXPERIMENTS ON MX_3 COMPOUNDS, International Symposium on NONLINEAR TRANSPORT AND RELATED PHENOMENA IN INORGANIC QUASI ONE DIMENSIONAL CONDUCTORS) [O] . Ong N.P., Verma G. 1984

机译：接触在电荷密度-波传导噪声产生中的作用（关于MX_3化合物的实验，在无机准一维导体中的非线性传输及相关现象国际研讨会）

Characterization of charge generation and transport in a photorefractive organic glass: comparison between conventional and holographic time-of-flight experiments

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