Organic solar cells (OSCs) are considered as a promising new generation of clean energy.
Bulk heterojunction (BHJ) structure has been widely employed in the active layer of efficient …

Reducing non‐radiative energy loss (∆ Enr) is critical for enhancing the photovoltaic
performance of organic solar cells (OSCs). To achieve this, a small molecular donor, LJ1, is …

The dimerization of small molecule acceptors (SMAs) is a promising strategy for enhancing
the long‐term stability and power conversion efficiency (PCE) of organic solar cells (OSCs) …

Solar energy utilization is a promising renewable technology for achieving efficient energy
conversion. Nonfullerene acceptors (NFAs) have triggered wide interest in solar energy …

The central core in non‐fullerene acceptors (NFAs) plays a crucial role in determining the
efficiency of organic photovoltaic (OPV) cells. To further advance the development of OPV …

Enhancing exciton generation, promoting exciton dissociation, and facilitating charge
transport and collection within the photoactive layer is crucial for improving the performance …

Developing organic semiconductors for short-wavelength infrared (SWIR) organic
photodetectors (OPDs) remains challenging due to the trade-off between achieving a long …

Mechanical stretchability is a vital criterion for the wearable application of organic solar cells
(OSCs), while the excessive rigidity of fused‐ring small molecular acceptors make the …

Halogenation of Y‐series small‐molecule acceptors (Y‐SMAs) is identified as an effective
strategy to optimize photoelectric properties for achieving improved power‐conversion …

Balancing the rigid backbones and flexible side chains of light‐harvesting materials is
crucially important to reach optimized intermolecular packing, micromorphology, and thus …