A–D–A'–D–A type nonfused ring electron acceptors for efficient organic solar cells via synergistic molecular packing and orientation control

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY Aggregate (Hoboken, N.J.) Pub Date : 2024-01-04 DOI:10.1002/agt2.488
Wenkui Wei, Xia Zhou, Shuting Pang, Jiadong Zhou, Xiyue Yuan, Junyu Li, Yuting Chen, Langheng Pan, Zengqi Xie, Hongbin Wu, Fei Huang, Yong Cao, Chunhui Duan
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Abstract

Nonfused ring electron acceptors (NFREAs) are promising candidates for future commercialization of organic solar cells (OSCs) due to their simple synthesis. Still, the power conversion efficiencies (PCEs) of NFREA-based OSCs have large room for improvement. In this work, by merging end group halogenation and side chain engineering, we developed four A–D–A'–D–A type NFREAs, which we refer to as EH-4F, C4-4F, EH-4Cl, and C4-4Cl. Single crystal X-ray diffraction revealed that multiple intermolecular S···F interactions between cyclopentadithiophene and 5,6-difluoro-3-(dicyanomethylene)indanone could cause an unfavorable dimer formation, leading to ineffective π–π stackings in EH-4F and C4-4F, whereas no such dimer was found in EH-4Cl and C4-4Cl after replacing with 5,6-dichloro-3-(dicyanomethylene)indanone. Moreover, although the shorter n-butyl side chain resulted in a closer molecular packing in C4-4Cl, EH-4Cl (2-ethylhexyl substitution) with proper crystallinity exhibited enhanced face-on orientation in thin film, which is favorable for vertical charge transport and further reducing charge recombination. As a result, a PCE of 13.0% is obtained for EH-4Cl-based OSC with a fill factor of 0.70. This work highlights the importance of molecular packing and orientation control toward future high-performance A–D–A'–D–A type NFREAs.

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通过协同分子填料和取向控制实现高效有机太阳能电池的 A-D-A'-D-A 型非融合环电子受体
非熔环电子受体(NFREAs)由于合成简单,是未来有机太阳能电池(OSC)商业化的理想候选材料。然而,基于 NFREA 的有机太阳能电池的功率转换效率(PCE)仍有很大的提升空间。在这项工作中,我们通过合并端基卤化和侧链工程,开发了四种 A-D-A'-D-A 型 NFREA,分别称为 EH-4F、C4-4F、EH-4Cl 和 C4-4Cl。单晶 X 射线衍射显示,环戊并噻吩与 5,6-二氟-3-(二氰基亚甲基)茚酮之间的多重分子间 S-F 相互作用可能会导致不利的二聚体形成,从而导致 EH-4F 和 C4-4F 中的π-π 堆积失效,而在替换为 5,6-二氯-3-(二氰基亚甲基)茚酮后,EH-4Cl 和 C4-4Cl 中没有发现这种二聚体。此外,虽然较短的正丁基侧链导致 C4-4Cl 的分子堆积更紧密,但具有适当结晶度的 EH-4Cl(2-乙基己基取代)在薄膜中显示出更强的面朝上取向,这有利于垂直电荷传输并进一步减少电荷重组。因此,基于 EH-4Cl 的 OSC 的 PCE 为 13.0%,填充因子为 0.70。这项研究强调了分子填料和取向控制对未来高性能 A-D-A'-D-A 型 NFREAs 的重要性。
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