Polymer Acceptors with Flexible Spacers Afford Efficient and Mechanically Robust All‐Polymer Solar Cells
Zewdneh Genene, Jin‐Woo Lee, Sun‐Woo Lee, Qiaonan Chen, Zhengping Tan, Birhan A. Abdulahi, Donghong Yu, Taek‐Soo Kim, Bumjoon J. Kim, Ergang Wang
Abstract
Abstract High efficiency and mechanical robustness are both crucial for the practical applications of all‐polymer solar cells (all‐PSCs) in stretchable and wearable electronics. In this regard, a series of new polymer acceptors (P A s) is reported by incorporating a flexible conjugation‐break spacer (FCBS) to achieve highly efficient and mechanically robust all‐PSCs. Incorporation of FCBS affords the effective modulation of the crystallinity and pre‐aggregation of the P A s, and achieves the optimal blend morphology with polymer donor (P D ), increasing both the photovoltaic and mechanical properties of all‐PSCs. In particular, an all‐PSC based on PYTS‐0.3 P A incorporated with 30% FCBS and PBDB‐T P D demonstrates a high power conversion efficiency (PCE) of 14.68% and excellent mechanical stretchability with a crack onset strain (COS) of 21.64% and toughness of 3.86 MJ m ‐3 , which is significantly superior to those of devices with the P A without the FCBS (PYTS‐0.0, PCE = 13.01%, and toughness = 2.70 MJ m ‐3 ). To date, this COS is the highest value reported for PSCs with PCEs of over 8% without any insulating additives. These results reveal that the introduction of FCBS into the conjugated backbone is a highly feasible strategy to simultaneously improve the PCE and stretchability of PSCs.