Regulating phase separation and molecular stacking by introducing siloxane to small-molecule donors enables high efficiency all-small-molecule organic solar cells
Energy & Environmental Science2022Vol. 15(7), pp. 2937–2947
Citations Over TimeTop 10% of 2022 papers
Yilin Chang, Xiangwei Zhu, Yanan Shi, Yanan Liu, Ke Meng, Yanxun Li, Jingwei Xue, Lingyun Zhu, Jianqi Zhang, Huiqiong Zhou, Wei Ma, Zhixiang Wei, Kun Lü
Abstract
Siloxane with low surface tension can regulate the intermolecular interactions, and optimize the phase separation morphology and molecule stacking, finally contributing to an excellent PCE of 16.4% with small energy loss for ASM-OSCs.
Related Papers
- → Use of π–π forces to steer the assembly of chromone derivatives into hydrogen bonded supramolecular layers: crystal structures and Hirshfeld surface analyses(2011)230 cited
- → Peripheral halogenation engineering controls molecular stacking to enable highly efficient organic solar cells(2022)153 cited
- → Survey of possible layer stacking structures*(1967)25 cited
- → 1,3-Bis(8-chlorotheophyllin-7-yl)propane: a molecule with no intramolecular stacking(2001)1 cited
- 매립지 특성이 매립가스 내 siloxane 발생에 미치는 영향(2011)