分子间力
扩散
聚合物
噻吩
能量转换效率
热稳定性
有机太阳能电池
分子
材料科学
化学物理
计算化学
化学
物理
热力学
有机化学
光电子学
作者
Yuhang Zhu,Yunlong Ma,Liu L,Dongdong Cai,Jin‐Yun Wang,Haiting Shi,Qingdong Zheng
出处
期刊:Angewandte Chemie
[Wiley]
日期:2024-08-19
卷期号:63 (50): e202411155-e202411155
被引量:14
标识
DOI:10.1002/anie.202411155
摘要
As the simplest oligomeric acceptors, dimerized acceptors (DAs) are easier to synthesize, and more importantly, they can retain good intermolecular interaction and photovoltaic properties of their parent small-molecule acceptors (SMAs). Nevertheless, currently most efficient DAs are derived from banana-shaped acceptors and they might suffer from inferior device stability with high diffusion coefficients. Herein, we design and synthesize two planar DAs (DMT-FH and DMT-HF) by bridging two linear-shaped M-series SMAs with a thiophene unit. The effects of fluorination position on the diffusion coefficients, power conversion efficiencies (PCEs) and stability of the DAs are systematically studied. Our results suggest that DMT-HF with fluorination on the ending indanone groups shows enhanced intermolecular interactions, improved PCE and stability compared with the counterpart (DMT-FH) with fluorination on the central indanone groups. Further optimization on the DMT-HF-based devices yields an outstanding PCE of 17.17 %, which is the highest among all linear-shaped SMA-based DAs. Notably, with the low diffusion coefficient (3.36×10-24 cm2 s-1) of DMT-HF, the resulting device retains over 93 % of the initial PCE after 5000 h of continuous heating at 85 °C, suggesting its excellent thermal stability. The results highlight the importance of intermolecular interaction and fluorination for achieving efficient and stable polymer solar cells.
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