High-Performance Ternary Organic Solar Cells Enabled by Synergizing Fullerene and Non-fullerene Acceptors

Organic Materials Pub Date : 2021-03-31 DOI:10.1055/a-1472-3989

Yuanyuan Jiang, Xiaozhang Zhu

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引用次数: 3

Abstract

Abstract With the development of the non-fullerene acceptors (NFAs), the use of ternary organic photovoltaic devices based on a fullerene acceptor and a NFA is now widespread, and the merits of both acceptor types can be fully utilized. However, the effective approach of enhancing device performance is adjusting the charge dynamics and the thin-film morphology of the active layer via introducing the second acceptor, which would significantly impact the open-circuit voltage, the short-circuit current, and the fill factor, thus strongly affecting device efficiency. The functions of the second acceptor in a ternary organic solar cell with a fullerene acceptor and a NFA are summarized here. These include a broader absorption spectrum; formation of a cascade energy level or energy transfer; modified thin-film morphology including phase separation, effects on crystallinity, size, and purity of domain; and vertical distribution along with improved charge dynamics like exciton dissociation and charge transport, collection, and recombination. Then, we discuss the hierarchical morphology in ternary solar cells, which may benefit device performance, and the outlook of the ternary device.

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富勒烯和非富勒烯受体协同作用实现的高性能三元有机太阳能电池

摘要随着非富勒烯受体(NFA)的发展，基于富勒烯受体和非富勒烯受体的三元有机光伏器件的应用越来越广泛，两种受体类型的优点可以得到充分利用。然而，提高器件性能的有效途径是通过引入第二受体来调整有源层的电荷动态和薄膜形态，这将显著影响开路电压、短路电流和填充因子，从而强烈影响器件效率。本文综述了含富勒烯受体和NFA的三元有机太阳能电池中第二受体的功能。这包括更宽的吸收光谱;形成一个级联的能级或能量转移;改性薄膜形态，包括相分离，对结晶度，尺寸和纯度的影响;垂直分布以及改进的电荷动力学，如激子解离和电荷传输，收集和重组。然后，我们讨论了三元太阳能电池的分层形态，这可能有利于器件性能，以及三元器件的前景。

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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