小分子太阳能电池，同时提高短路电流和填充因子，以实现 11%的效率。

Small-Molecule Solar Cells with Simultaneously Enhanced Short-Circuit Current and Fill Factor to Achieve 11% Efficiency.

机构信息

Institute of Electronic Paper Displays, South China Academy of Advanced Optoelectronics, South China Normal University, Guangzhou, Guangdong Province, 510006, China.

Institute of Polymer Optoelectronic Materials and Devices, State Key Laboratory of Luminescent Materials and Devices, South China University of Technology, Guangzhou, 510640, P. R. China.

出版信息

Adv Mater. 2017 Aug;29(29). doi: 10.1002/adma.201700616. Epub 2017 Jun 7.

DOI:10.1002/adma.201700616

PMID:28589656

Abstract

High-efficiency small-molecule-based organic photovoltaics (SM-OPVs) using two electron donors (p-DTS(FBTTh ) and ZnP) with distinctively different absorption and structural features are reported. Such a combination works well and synergically improves device short-circuit current density (J ) to 17.99 mA cm and fill factor (FF) to 77.19%, yielding a milestone efficiency of 11%. To the best of our knowledge, this is the highest power conversion efficiency reported for SM-OPVs to date and the first time to combine high J over 17 mA cm and high FF over 77% into one SM-OPV. The strategy of using multicomponent materials, with a selecting role of balancing varied electronic and structural necessities can be an important route to further developing higher performance devices. This development is important, which broadens the dimension and versatility of existing materials without much chemistry input.

摘要

采用具有明显不同吸收和结构特征的两个电子给体（p-DTS（FBTTh）和 ZnP）的高效小分子基有机光伏（SM-OPV）被报道。这种组合效果很好，协同作用将器件短路电流密度（J）提高到 17.99 mA cm，填充因子（FF）提高到 77.19%，产生了 11%的里程碑效率。据我们所知，这是迄今为止 SM-OPV 报道的最高功率转换效率，也是首次将 17 mA cm 以上的高 J 和 77%以上的高 FF 结合到一个 SM-OPV 中。使用多组分材料的策略，通过平衡各种电子和结构需求的选择作用，可以是进一步开发更高性能器件的重要途径。这一发展非常重要，它在不增加太多化学输入的情况下拓宽了现有材料的维度和多功能性。

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小分子太阳能电池，同时提高短路电流和填充因子，以实现 11%的效率。

Small-Molecule Solar Cells with Simultaneously Enhanced Short-Circuit Current and Fill Factor to Achieve 11% Efficiency.

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