Charge transport calculations by a wave-packet dynamical approach using maximally localized Wannier functions based on density functional theory: Application to high-mobility organic semiconductors

Hiroyuki Ishii; Nobuhiko Kobayashi; Kenji Hirose

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Charge transport calculations by a wave-packet dynamical approach using maximally localized Wannier functions based on density functional theory: Application to high-mobility organic semiconductors

机译：基于密度泛函理论的使用最大局部Wannier函数的波包动力学方法进行电荷传输计算：在高迁移率有机半导体中的应用

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We present a wave-packet dynamical approach to charge transport using maximally localized Wannier functions based on density functional theory including van der Waals interactions. We apply it to the transport properties of pentacene and rubrene single crystals and show the temperature-dependent natures from bandlike to thermally activated behaviors as a function of the magnitude of external static disorder. We compare the results with those obtained by the conventional band and hopping models and experiments.

机译：我们提出了一种基于密度泛函理论（包括范德华相互作用）的最大局部Wannier函数的波包动力学方法，用于电荷传输。我们将其应用于并五苯和红荧烯单晶的传输性质，并显示了从带状到热激活行为的温度依赖性性质，该行为是外部静态无序程度的函数。我们将结果与通过常规频带和跳跃模型以及实验获得的结果进行比较。

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《Physical Review. B, Condensed Matter》 |2017年第3期|035433.1-035433.7|共7页
作者
Hiroyuki Ishii; Nobuhiko Kobayashi; Kenji Hirose;
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Institute of Applied Physics and Tsukuba Research Center for Interdisciplinary Materials Science, University of Tsukuba,1-1-1 Tennodai, Tsukuba, Ibaraki 305-8573, Japan,JST-PRESTO, University ofTsukuba, 1-1-1 Tennodai, Tsukuba, Ibaraki 305-8573, Japan;

Institute of Applied Physics and Tsukuba Research Center for Interdisciplinary Materials Science, University of Tsukuba,1-1-1 Tennodai, Tsukuba, Ibaraki 305-8573, Japan;

Smart Energy Research Laboratories, NEC Corporation, 34 Miyukigaoka, Tsukuba, Ibaraki 305-8501, Japan;

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1. Charge transport calculations by a wave-packet dynamical approach using maximally localized Wannier functions based on density functional theory: Application to high-mobility organic semiconductors [J] . Ishii Hiroyuki, Kobayashi Nobuhiko, Hirose Kenji Physical review, B . 2017,第3期

机译：基于密度函数理论的最大局部定位的若要函数的波浪分组动态方法充电计算：在高迁移率有机半导体中的应用
2. Charge transport calculations by a wave-packet dynamical approach using maximally localized Wannier functions based on density functional theory: Application to high-mobility organic semiconductors [J] . Hiroyuki Ishii, Nobuhiko Kobayashi, Kenji Hirose Physical Review. B, Condensed Matter . 2017,第3a4CD期

机译：基于密度函数理论的最大局部定位的若要函数的波浪分组动态方法充电计算：在高迁移率有机半导体中的应用
3. First-principles calculation of effective onsite Coulomb interactions of 3d transition metals: Constrained local density functional approach with maximally localized Wannier functions [J] . Kazuma Nakamura, Ryotaro Arita, Yoshihide Yoshimoto, Physical review. B, Condensed Matter And Materials Physics . 2006,第23期

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4. Charge Transport Properties of CN-Substituted Furan Based Organic Semiconductor: A Density Functional Study [C] . Smruti Ranjan Sahoo, Sridhar Sahu, Sagar Sharma International Conference on Condensed Matter and Applied Physics . 2016

机译：CN取代的呋喃有机半导体的电荷传输性能：密度函数研究
5. Functionalization of Organic Semiconductors and Other Carbon-based Materials by Self-Assembled Monolayers (SAMs) and Charge Transport in Organic Field-effect Transistors (OFETs) [D] . Lee, Bumsu 2012

机译：用自组装单层（SAMS）和其他碳基材料的官能化和其他碳基材料在有机场效应晶体管（OFETS）中的电荷输送
6. Molecular dynamics and charge transport in organic semiconductors: a classical approach to modeling electron transfer [O] . Kenley M. Pelzer, Álvaro Vázquez-Mayagoitia, Laura E. Ratcliff, 2017

机译：有机半导体中的分子动力学和电荷传输：模拟电子转移的经典方法
7. Charge transport calculations by a wave-packet dynamical approach using maximally localized Wannier functions based on density functional theory: Application to high-mobility organic semiconductors [O] . Ishii Hiroyuki, Kobayashi Nobuhiko, Hirose Kenji 2017

机译：基于密度泛函理论的使用最大局部Wannier函数的波包动力学方法进行电荷传输计算：在高迁移率有机半导体中的应用

Charge transport calculations by a wave-packet dynamical approach using maximally localized Wannier functions based on density functional theory: Application to high-mobility organic semiconductors

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