使用调谐范围分离混合泛函对并五苯 - C60模型配合物中的局域和电荷转移激发进行的理论研究。

Theoretical Study of the Local and Charge-Transfer Excitations in Model Complexes of Pentacene-C60 Using Tuned Range-Separated Hybrid Functionals.

作者信息

Zhang Cai-Rong, Sears John S, Yang Bing, Aziz Saadullah G, Coropceanu Veaceslav, Brédas Jean-Luc

机构信息

School of Chemistry and Biochemistry and Center for Organic Photonics and Electronics, Georgia Institute of Technology , Atlanta, Georgia 30332-0400, United States.

Department of Applied Physics, Lanzhou University of Technology , Lanzhou, Gansu 730050, P. R. China.

出版信息

J Chem Theory Comput. 2014 Jun 10;10(6):2379-88. doi: 10.1021/ct500259m.

DOI:10.1021/ct500259m

PMID:26580758

Abstract

The characteristics of the electronic excited states and the charge-transfer processes at organic-organic interfaces play an important role in organic electronic devices. However, charge-transfer excitations have proven challenging to describe with conventional density functional theory (DFT) methodologies due to the local nature of the exchange-correlation potentials often employed. Here, we examine the excited states of model pentacene-C60 complexes using time-dependent DFT with, on one hand, one of the most popular standard hybrid functionals (B3LYP) and, on the other hand, several long-range corrected hybrid functionals for which we consider both default and nonempirically tuned range-separation parameters. The DFT results based on the tuned functionals are found to agree well with the available experimental data. The results also underline that the interface geometry of the complex has a strong effect on the energies and ordering of the singlet and triplet charge-transfer states.

摘要

有机-有机界面处电子激发态的特征和电荷转移过程在有机电子器件中起着重要作用。然而，由于通常采用的交换相关势的局部性质，电荷转移激发已被证明难以用传统的密度泛函理论（DFT）方法来描述。在这里，我们使用含时密度泛函理论研究模型并五苯-C60复合物的激发态，一方面使用最流行的标准杂化泛函之一（B3LYP），另一方面使用几种长程校正杂化泛函，我们考虑了其默认和非经验调整的范围分离参数。发现基于调整后的泛函的DFT结果与现有的实验数据吻合良好。结果还强调，复合物的界面几何结构对单重态和三重态电荷转移态的能量和排序有强烈影响。

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使用调谐范围分离混合泛函对并五苯 - C60模型配合物中的局域和电荷转移激发进行的理论研究。

Theoretical Study of the Local and Charge-Transfer Excitations in Model Complexes of Pentacene-C60 Using Tuned Range-Separated Hybrid Functionals.

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