Green hydrogen is a promising technology for sustainable energy production, with
photocatalytic water splitting offering several advantages over wind/solar-powered water …

Photocatalytic water splitting is considered one of the most important and appealing
approaches for the production of green H2 to address the global energy demand. The …

Cooperative coupling of H2 evolution with oxidative organic synthesis is promising in
avoiding the use of sacrificial agents and producing hydrogen energy with value‐added …

Covalent organic frameworks (COFs) hold great promise for solar‐driven hydrogen
production. However, metal‐free COFs for photocatalytic overall water splitting remain …

So-called Z-scheme systems permit overall water splitting using narrow-bandgap
photocatalysts. To boost the performance of such systems, it is necessary to enhance the …

Bi3TiNbO9, a layered ferroelectric photocatalyst, exhibits great potential for overall water
splitting through efficient intralayer separation of photogenerated carriers motivated by a …

High-performance thermogalvanic cells have the potential to convert thermal energy into
electricity, but their effectiveness is limited by the low concentration difference of redox ions …

Abstract 'Renewable energy is an essential part of our strategy of decarbonization,
decentralization, as well as digitalization of energy.'–Isabelle Kocher. Current climate, health …

Charge separation is a crucial process that is closely related to the field of information and
energy applications such as optoelectronics, photovoltaics, and artificial photosynthesis. The …

Supported metal catalysts have been exploited in various applications. Among them,
cocatalyst supported on photocatalyst is essential for activation of photocatalysis. However …