Simple-Structured Acceptor with Highly Interconnected Electron-Transport Pathway Enables High-Efficiency Organic Solar Cells.
Xiaobin GuRui ZengTengfei HeGuanqing ZhouCongqi LiNa YuFei HanYuqi HouJikai LvMing ZhangJianqi ZhangZhixiang WeiZheng TangHaiming ZhuYunhao CaiGuankui LongFeng LiuXin ZhangHui HuangPublished in: Advanced materials (Deerfield Beach, Fla.) (2024)
Achieving desirable charge-transport highway is of vital importance for high-performance organic solar cells (OSCs). Here, it is shown how molecular packing arrangements can be regulated via tuning the alkyl-chain topology, thus resulting in a 3D network stacking and highly interconnected pathway for electron transport in a simple-structured nonfused-ring electron acceptor (NFREA) with branched alkyl side-chains. As a result, a record-breaking power conversion efficiency of 17.38% (certificated 16.59%) is achieved for NFREA-based devices, thus providing an opportunity for constructing low-cost and high-efficiency OSCs.