Cluster-Based Approach Utilizing Optimally Tuned TD-DFT to Calculate Absorption Spectra of Organic Semiconductor Thin Films

四烯 有机半导体 光激发 极化连续介质模型 并五苯 密度泛函理论 半导体 薄膜 材料科学 极化率 计算机科学 化学物理 纳米技术 化学 光电子学 分子 物理 计算化学 量子力学 激发态 图层(电子) 溶剂化 薄膜晶体管
作者
Luca Craciunescu,Maximilian Asbach,Sara Wirsing,Sebastian Hammer,Frederik Unger,Katharina Broch,Frank Schreiber,Gregor Witte,Andreas Dreuw,Petra Tegeder,Felipe Fantuzzi,Bernd Engels
出处
期刊:Journal of Chemical Theory and Computation [American Chemical Society]
卷期号:19 (24): 9369-9387 被引量:8
标识
DOI:10.1021/acs.jctc.3c01107
摘要

The photophysics of organic semiconductor (OSC) thin films or crystals has garnered significant attention in recent years since a comprehensive theoretical understanding of the various processes occurring upon photoexcitation is crucial for assessing the efficiency of OSC materials. To date, research in this area has relied on methods using Frenkel-Holstein Hamiltonians, calculations of the GW-Bethe-Salpeter equation with periodic boundaries, or cluster-based approaches using quantum chemical methods, with each of the three approaches having distinct advantages and disadvantages. In this work, we introduce an optimally tuned, range-separated time-dependent density functional theory approach to accurately reproduce the total and polarization-resolved absorption spectra of pentacene, tetracene, and perylene thin films, all representative OSC materials. Our approach achieves excellent agreement with experimental data (mostly ≤0.1 eV) when combined with the utilization of clusters comprising multiple monomers and a standard polarizable continuum model to simulate the thin-film environment. Our protocol therefore addresses a major drawback of cluster-based approaches and makes them attractive tools for OSC investigations. Its key advantages include its independence from external, system-specific fitting parameters and its straightforward application with well-known quantum chemical program codes. It demonstrates how chemical intuition can help to reduce computational cost and still arrive at chemically meaningful and almost quantitative results.
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