Theoretical Investigation of the Charge Transport Properties of the DPTTA p-Type Single Crystal to the Ambipolar DPTTA-F4TCNQ Cocrystal

Journal of Basic and Applied Sciences Pub Date : 2023-04-28 DOI:10.29169/1927-5129.2023.19.03

Zhelin Ding, Qiqi Mu, Junle Ren, Yuyao Li, Qiguang Shen, Li Zhang, Shoufeng Zhang

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Abstract

Our research has been conducted on the charge transport properties of the single-crystal DPTTA and the cocrystal DPTTA-F4TCNQ using the density functional theory coupled with incoherent charge-hopping model. Charge mobility is primarily considered from the combination of reorganization energy and charge transfer integral, which are important parameters in model of the charge-hopping model. The reorganization energy of DPTTA in both single-crystal and cocrystal forms exhibits similar values. Consistent with the properties of super-exchange coupling and direct coupling when under the same type of coupling mechanism, it decreases with increasing distance from the core molecule. We conclude this section by using kinetic Monte Carlo combined with Einstein's equation to derive the charge mobility, and find it to be consistent with the theoretical analysis. In our study, we propose corresponding theoretical guidelines for the rational realization of the ambipolarity of D-A complexes, hoping to contribute to the understanding and rational design of the basic mechanism of D-A complexes.

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DPTTA p型单晶向双极性DPTTA- f4tcnq共晶电荷输运性质的理论研究

我们利用密度泛函理论和非相干电荷跳变模型对单晶DPTTA和共晶DPTTA- f4tcnq的电荷输运特性进行了研究。电荷迁移率主要从重组能和电荷转移积分的结合来考虑，这两个参数是跳荷模型模型中的重要参数。DPTTA在单晶和共晶形态下的重组能值相近。在同类型耦合机制下，与超交换耦合和直接耦合的性质一致，随着与核心分子距离的增加而减小。最后，我们利用动力学蒙特卡罗结合爱因斯坦方程推导出了电荷迁移率，结果与理论分析一致。在我们的研究中，我们为D-A配合物的双极性的合理实现提出了相应的理论指导，希望对D-A配合物的基本机理的理解和合理设计有所贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Basic and Applied Sciences

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