Enhanced Performance via End-Group Alteration of Benzodithiophene-Based Donors for Organic Solar Cells: a Theoretical Study.

IF 3.5 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Chemistry - An Asian Journal Pub Date : 2024-11-26 DOI:10.1002/asia.202401245
Kai-Xin Liu, Jie Yang, Quan-Song Li
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Abstract

Donor in organic solar cells (OSCs) is essential for promoting charge transport and enhancing photoelectric conversion efficiency. In this work, five new donors M1-M5 were designed by changing the end group to 3-hexyl-2,4-dithiothiazolidine, dicyano-hexylrhodanine, 1,1-dicyanomethylene-3-indanone, 1,3-indenedione and 1,1-dicyano-5,6-difluoroindanone, respectively.The optoelectronic properties of the six donors and their interfacial properties with the well-known acceptor Y6 were studied by density functional theory (DFT) and time-dependent density functional theory (TD-DFT).  The calculation results show that the absorption ranges of M1-M5 in the visible light region are expanded, the red shift degrees of M1 and M3 are obvious (73 nm, 63 nm), and the light absorption abilities are obviously improved. The hole migration efficiency of M2, M4 and M5 is improved, which is beneficial to improve the charge transfer efficiency. The proportion of charge transfer states at the M1/Y6 and M4/Y6 interfaces increased by 7.5% and 2.5%, respectively. Moreover, the charge transfer states generated at the M1/Y6 interface through the intermolecular electric field mechanism and hot exciton mechanism are more dominant. Our calculation results not only provide several potential small molecule donors for experimental synthesis, but also have certain reference value for understanding the charge transfer mechanism at the donor/acceptor (D/A) interface.

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通过改变用于有机太阳能电池的苯并二噻吩基捐献者的末端基团来提高性能:一项理论研究。
有机太阳能电池(OSC)中的供体对于促进电荷传输和提高光电转换效率至关重要。在这项工作中,通过将端基分别改为 3-己基-2,4-二硫噻唑烷、二氰基-己基罗丹宁、1,1-二氰基亚甲基-3-茚酮、1,3-茚二酮和 1,1-二氰基-5,6-二氟茚酮,设计出了五种新的供体 M1-M5。通过密度泛函理论(DFT)和时变密度泛函理论(TD-DFT)研究了这六种给体的光电性质及其与著名受体 Y6 的界面性质。 计算结果表明,M1-M5 在可见光区的吸收范围扩大,M1 和 M3 的红移程度明显(73 nm、63 nm),光吸收能力明显提高。M2、M4 和 M5 的空穴迁移效率提高,有利于提高电荷转移效率。M1/Y6 和 M4/Y6 界面的电荷转移态比例分别增加了 7.5% 和 2.5%。此外,通过分子间电场机制和热激子机制在 M1/Y6 界面产生的电荷转移态更占优势。我们的计算结果不仅为实验合成提供了几种潜在的小分子供体,而且对理解供体/受体(D/A)界面的电荷转移机制具有一定的参考价值。
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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来源期刊
Chemistry - An Asian Journal
Chemistry - An Asian Journal 化学-化学综合
CiteScore
7.00
自引率
2.40%
发文量
535
审稿时长
1.3 months
期刊介绍: Chemistry—An Asian Journal is an international high-impact journal for chemistry in its broadest sense. The journal covers all aspects of chemistry from biochemistry through organic and inorganic chemistry to physical chemistry, including interdisciplinary topics. Chemistry—An Asian Journal publishes Full Papers, Communications, and Focus Reviews. A professional editorial team headed by Dr. Theresa Kueckmann and an Editorial Board (headed by Professor Susumu Kitagawa) ensure the highest quality of the peer-review process, the contents and the production of the journal. Chemistry—An Asian Journal is published on behalf of the Asian Chemical Editorial Society (ACES), an association of numerous Asian chemical societies, and supported by the Gesellschaft Deutscher Chemiker (GDCh, German Chemical Society), ChemPubSoc Europe, and the Federation of Asian Chemical Societies (FACS).
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