Benzotriazole-Based Nonfused Ring Acceptors for Efficient and Thermally Stable Organic Solar Cells

Nonfused ring acceptors (NFRAs) have attracted significant attention for nonfullerene organic solar cells (OSCs) owing to their chemical tunability and facile synthesis. In this study, a benzotriazole-based NFRA with chlorinated end groups (Triazole-4Cl) is developed to realize highly efficient and thermally stable NFRA-based OSCs; an analogous NFRA with nonchlorinated end groups (Triazole-H) is synthesized for comparison. Triazole-4Cl film exhibits the high-order packing structure and the near-infrared absorption capability, which are advantageous in charge transport and light harvesting of the resulting OSCs. In particular, the strong crystalline behavior of Triazole-4Cl results in enhanced self-aggregation, leading to high charge carrier mobility. Owing to these properties, a PBDB-T (polymer donor):Triazole-4Cl OSC demonstrates a high short-circuit current, fill factor, and power conversion efficiency (PCE = 10.46%), outperforming a PBDB-T:Triazole-H OSC (PCE = 7.65%). In addition, the thermal stability of a PBDB-T:Triazole-4Cl OSC at an elevated temperature of 120 degrees C exceeds that of a PBDB-T:Triazole-H OSC. This is mainly attributed to the significantly higher cold crystallization temperature of Triazole-4Cl (205.9 degrees C). This work provides useful guidelines for the design of NFRAs to achieve efficient and thermally stable NFRA-based OSCs.

Automated summary

This study demonstrates the development of a benzotriazole-based nonfused ring acceptor (NFRA) with chlorinated end groups for efficient and thermally stable organic solar cells (OSCs). The NFRA, Triazole-4Cl, exhibits high-order packing structure and near-infrared absorption capability, resulting in enhanced charge transport and light harvesting. The OSCs based on Triazole-4Cl show high short-circuit current, fill factor, and power conversion efficiency (PCE). The thermal stability of Triazole-4Cl OSCs also exceeds that of the nonchlorinated NFRA, Triazole-H.