三元运算
有机太阳能电池
产量(工程)
光伏
荧光
材料科学
化学物理
化学
费斯特共振能量转移
纳米技术
二进制数
光伏系统
组分(热力学)
生物系统
吸收(声学)
丙二腈
分子
接受者
分布(数学)
聚合物
分子模型
势能
分子工程
小分子
光电子学
电子受体
计算化学
静电学
作者
Shuhui Ding,Zheng Xu,Wenkai Zhao,Qianyi Liu,Yu Zhang,Zhaoyang Yao,Yaxiao Guo,Guankui Long,Chenxi Li,Xiangjian Wan,Yongsheng Chen
标识
DOI:10.1002/anie.202518738
摘要
Inspired by the dominant role of 2-(3-oxo-2,3-dihydroinden-1-ylidene) malononitrile (INCN) terminal in regulating molecular packing, an innovative strategy to construct "third terminals" of non-fullerene acceptors (NFAs) is proposed by introducing INIC-mimicking motifs to molecular backbone center. Through delicate electrostatic and geometric regulation of INCN analogues (NQ, DCNQ, and TCNC), newly designed NFAs (CH56, CH57, and CH58) render not only an inverted distribution of molecular frontier orbitals, but also the substantial HOMO-LUMO overlap for CH56 while pronounced spatial separation for others. Especially, the puckered TCNC with the most LUMOs distribution yet minimal involvement in molecular packings drives CH58 to adopt a pseudo-three-dimensional (3D) packing network and inferior electron migration in sharp contrast to CH56. Moreover, the twisty CH57 and CH58 also exhibit unexpectedly quenched fluorescence due to the severe skeletal vibrations DCNQ and TCNC, further resulting in the large energy losses and poor photovoltaic performance. Finally, CH56-based OSCs yield a surprising open-circuit-voltage of 1.007 V for binary devices and an excellent 20.16% efficiency for ternary devices. Our trials on "third terminal" has enabled the extensive exploration of novel architectures of NFAs beyond conventional structural paradigms.
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