Seawater electrolysis emerges as a viable solution for sustainable hydrogen production,
leveraging areas abundant in renewable energy but scarce in freshwater. However, the …

Seawater electrolysis is a sustainable energy conversion technology that generates clean
energy by splitting seawater into hydrogen and oxygen. However, the catalysts used in …

A paradigm for the rational design of active, abundant, and inexpensive bifunctional
electrocatalysts with acceptable electrochemical energy conversion rates has yet to be …

Scaled-up industrial water electrolysis equipment that can be used with abundant seawater
is key for affordable hydrogen production. The search for highly stable, dynamic, and …

Zinc‐air batteries are gaining popularity as viable energy sources for green energy storage
technologies. The cost and performance of Zn‐air batteries are mostly determined by the air …

Develo** highly efficient and stable precious metal electrocatalysts toward hydrogen
evolution reaction (HER) is crucial for energy application, while it is still challenging to …

NiMo-based nanostructures are among the most active hydrogen evolution reaction (HER)
catalysts under an alkaline environment due to their strong water dissociation ability …

Future energy loss can be minimized to a greater extent via develo** highly active
electrocatalysts for alkaline water electrolyzers. Incorporating an innovative design like high …

Researchers are investigating innovative composite materials for renewable energy and
energy storage systems. The major goals of this studies are i) to develop a low‐cost and …

The development of earth-abundant catalysts for electrocatalytic water splitting has attracted
widespread attention. In this work, a novel catalyst of mesoporous CoMoO 4 with hollow …