16.7%-efficiency ternary blended organic photovoltaic cells with PCBM as the acceptor additive to increase the open-circuit voltage and phase purity
Publication in refereed journal

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其它資訊
摘要The field of organic photovoltaics (OPVs) has seen rapid development in the past few years, particularly, with reports on the use of a high performance nonfullerene electron acceptor (named Y6) in binary devices. In this paper, we demonstrate a simple yet effective ternary approach that can simultaneously increase the open-circuit voltage, short-circuit current-density, and fill factor of a binary device based on Y6 and a donor polymer named PM6. By adding a small amount of PCBM into the PM6:Y6 system, we achieved a high efficiency of 16.7%, which is the best value reported for an OPV device to date. Importantly, this ternary material approach has wide-ranging applicability, as we demonstrated the same beneficial effects in multiple systems, including PM6:IT-4F, PM7:IT-4F, PM6:Y6, and PM7:Y6. The LUMO energy (−3.9 eV) of PCBM lies between the LUMO (−3.6 eV) of PM6/PM7 and the LUMO (−4.1 eV) of IT-4F/Y6, which is one reason for the increased Voc. After blending with PCBM, the homogenous fine-film morphology and the π–π stacking patterns of the host binary structure are maintained, while the phase purity is increased, the hole and electron mobilities are increased, and monomolecular recombination is reduced, all of which, plus the visible absorption of PCBM, are the reasons for the concurrently improved fill-factor and increased short-circuit current density. This approach can be used in other OPV systems and should have wide applicability.
著者Ming-Ao Pan, Tsz-Ki Lau, Yabing Tang, Yi-Ching Wu, Tao Liu, Kun Li, Ming-Chou Chen, Xinhui Lu, Wei Ma, Chuanlang Zhan
期刊名稱Journal of Materials Chemistry A
出版年份2019
月份9
日期28
卷號7
期次36
出版社ROYAL SOC CHEMISTRY
頁次20713 - 20722
國際標準期刊號2050-7488
電子國際標準期刊號2050-7496
語言英式英語
Web of Science 學科類別Chemistry, Physical;Energy & Fuels;Materials Science, Multidisciplinary;Chemistry;Energy & Fuels;Materials Science

上次更新時間 2021-10-10 於 23:26