Zheng Xinming, Jiang Xiaolin, Liu Wenlong, Cao Chanyin, Wei Nan, Wei Zhengdong, Zhang Lei, Wu Hongbo, Zhang Andong, Li Cuihong, Liu Yahui, Lu Hao, Xu Xinjun, Tang Zheng, Bo Zhishan
Beijing Key Laboratory of Energy Conversion and Storage Materials, College of Chemistry, Beijing Normal University, Beijing, 100875, China.
College of Textiles & Clothing, State Key Laboratory of Bio-fibers and Eco-textiles, Qingdao University, Qingdao, 266071, China.
Angew Chem Int Ed Engl. 2024 Nov 11;63(46):e202412854. doi: 10.1002/anie.202412854. Epub 2024 Sep 20.
This study successfully designed and synthesized two nonfused ring electron acceptors, 412-6F and 412-6Cl, modified with fluorine and chlorine substituents, respectively. Single-crystal analysis revealed that 412-6F possesses a planar molecular backbone and exhibits pronounced dipole-dipole interactions between the fluorine atoms on the lateral phenyl groups and the carbonyl oxygen atoms on the end groups. This specific interaction promotes dense end-group stacking, leading to a reduced interlayer spacing. Improved crystallinity and coherence length are observed in the D18 : 412-6F blend film. Conversely, 412-6Cl adopts a more distorted configuration and lacks these interactions. As a result, the organic solar cell (OSC) based on D18 : 412-6F achieved a remarkable power conversion efficiency of 18.03 %, surpassing the performance of the D18 : 412-6Cl OSC. This underscores the importance of designing novel acceptors with beneficial intermolecular interactions to enhance OSC efficiency, thus providing a new direction for organic photovoltaic advancement.
本研究成功设计并合成了两种分别用氟和氯取代基修饰的非稠环电子受体412-6F和412-6Cl。单晶分析表明,412-6F具有平面分子骨架,并且在侧链苯基上的氟原子与端基上的羰基氧原子之间表现出明显的偶极-偶极相互作用。这种特定的相互作用促进了端基的密集堆积,导致层间距减小。在D18 : 412-6F共混膜中观察到结晶度和相干长度得到改善。相反,412-6Cl呈现出更扭曲的构型且缺乏这些相互作用。因此,基于D18 : 412-6F的有机太阳能电池(OSC)实现了18.03 %的显著功率转换效率,超过了D18 : 412-6Cl OSC的性能。这突出了设计具有有益分子间相互作用的新型受体以提高OSC效率的重要性,从而为有机光伏的发展提供了新方向。
