More than 22% power conversion efficiency (PCE) of organic solar cells (OSCs) has been
reported with efficient narrow bandgap acceptor materials as the active layers. And end …

The hydrogen evolution reaction (HER) is a promising process to produce high purity
hydrogen gas. However, the overpotential of this reaction hinders its practical applications …

Nowadays, organic solar cells (OSCs) with non-fullerene electron acceptors provide the
highest efficiencies among all studied OSCs. To further improve the efficiencies of fullerene …

Perovskite solar cells have gained immense interest from researchers owing to their good
photophysical properties, low‐cost production, and high power conversion efficiencies. Hole …

Hole transport materials (HTMs), especially dopant-free hole transport materials, are getting
attention in enhancing the power conversion efficiencies and stabilities of organic solar cells …

End‐capped modification is a convenient strategy to enhance the photovoltaic and
electronic properties of fullerene‐free acceptor materials. In this report, five novel star …

The high over-potential associated with water splitting hinders the wide production of
hydrogen and oxygen gases. Recent advancements in this field are being made by …

Chrysene core containing fused ring acceptor materials have remarkable efficiency for high
performance organic solar cells. Therefore, present study has been carried out with the aim …

Organic solar cells (OSCs) have received much attention because of their versatile
advantages including solution process ability, flexibility, transparency, and lightweight …

Small molecular donors (SMDs) manifest promising photovoltaic performance and rapid
progress in solar cells community. Herein, we investigate high-performance triphenylamine …