The innovation of non‐fullerene acceptors (NFAs) enables the rapid progress of organic
solar cells (OSCs) in power conversion efficiencies to over 19%, endowing OSCs with great …

The power conversion efficiencies (PCEs) of single‐junction organic solar cells (OSCs) have
surpassed 19%, owing to the emerging Y‐series nonfullerene acceptors (NFAs) …

The π‐expansion of non‐fullerene acceptors is a promising method for boosting the organic
photovoltaic performance by allowing the fine‐tuning of electronic structures and molecular …

The development of high-performance binary organic solar cells (OSCs) with a simplified
working mechanism and fabrication process is highly desirable to promote the commercial …

The development of A-DA′ DA type small molecule acceptors (SMAs) has promoted the
rapid progress of polymer solar cells (PSCs) in recent years. The outer side chains on the …

The blend nanomorphology of electron‐donor (D) and‐acceptor (A) materials is of vital
importance to achieving highly efficient organic solar cells. Exogenous additives especially …

Recently, all-polymer solar cells (all-PSCs) have made significant progress in terms of
efficiency and performance. Using Y-series-based small-molecule acceptors, a new range of …

Organic photovoltaic (OPV) cells have demonstrated remarkable performance in small, spin-
coated areas. Nevertheless significant challenges persist in the form of large efficiency …

Organic optoelectronic materials enable cutting-edge, low-cost organic photodiodes,
including organic solar cells (OSCs) for energy conversion and organic photodetectors …

The emergence of nonfullerene small-molecule acceptors (NFSMA) with the advantages of
synthetic versatility, high absorption coefficient in wide wavelength range, and high thermal …