Progress in Non‐Fullerene Acceptors: Evolution from Small to Giant Molecules.

Zhang, Chen; Yu, Runnan; Lv, Qianglong; Li, Shuang; Yuan, Haoyu; Huang, Bolong; Tan, Zhan'ao

With the rapid development of non‐fullerene acceptors (NFAs), the power conversion efficiency (PCE) of organic solar cells (OSCs) is increasing. According to their different chemical structures, NFAs can initially be divided into two categories: small molecule acceptors (SMAs) and polymerized small molecule acceptors (PSMAs). Due to the strong absorption capacity and controllable energy levels, the PCE of devices based on SMAs has approached 20 %. Compared with SMAs, PSMAs have advantages in stability and flexibility, and the PCE of PSMA‐based devices has exceeded 18 %. However, the higher synthesis cost and lower batch repeatability hinder its further development. Recently, the concept of giant molecule acceptors (GMAs) has been proposed. These materials have a clear molecular structure and are considered novel acceptor materials that combine the advantages of SMAs and PSMAs. Currently, the PCE of devices based on GMAs has exceeded 19 %. In this review, we will introduce the latest developments in SMAs, PSMAs, and GMAs. Then, the advantages of GMAs and the relationship between their structure and performance will be analyzed. In the end, perspectives on the opportunities and challenges of these materials are provided, which could inspire further development of NFAs for advanced OSCs.

ENERGY levels (Quantum mechanics); MOLECULAR structure; SMALL molecules; SOLAR cells; CHEMICAL structure

ChemSusChem, 2025, Vol 18, Issue 1, p1

1864-5631

Academic Journal

10.1002/cssc.202401138