Solar-driven photoelectrochemical (PEC) water splitting is a promising technique for
converting abundant solar-energy into clean and sustainable hydrogen fuels. However, the …

Green-hydrogen is considered a “key player” in the energy market for the upcoming
decades. Among currently available hydrogen (H2) production processes …

Bismuth vanadate (BiVO 4) as oxygen evolution photoanodes in photoelectrochemical
(PEC) water splitting is hampered by the severe charge recombination and sluggish kinetic …

Designing and developing visible‐light‐responsive materials for solar to chemical energy is
an efficient and promising approach to green and sustainable carbon‐neutral energy …

Designing photoanode semiconducting materials with visible‐light absorption and minimal
charge‐carrier recombination for achieving efficient solar‐to‐hydrogen (STH) conversion is …

High-performance solar-water-splitting technologies are of paramount interest for the cost-
effective generation of hydrogen fuel; however, their realization is majorly limited by the poor …

The rational design of visible‐light‐responsive catalysts is crucial for converting solar energy
into hydrogen energy to promote sustainable energy development. In this work, a C─ S─ C …

Simultaneous enhancement of light harvesting and charge transport in
photoelectrochemical (PEC) systems is a major challenge to achieving high solar‐to …

The photoelectrochemical performance of Ta3N5 photoanodes is strongly impacted by the
presence of shallow and deep defects within the bandgap. However, the role of such states …

The activation of hole trap states in bismuth vanadate (BiVO 4) is considered an effective
strategy to enhance the photoelectrochemical (PEC) water-splitting activity. Herein, we …