Scientists have developed a novel Cr-based single-atom catalyst that enables highly efficient hydrogen peroxide (H2O2) ...

Hydrogen peroxide (H2O2) is a vital green oxidant with broad applications ranging from disinfection to chemical manufacturing. However, its industrial ...

Hydrogen peroxide is widely used in everyday life, from disinfectants and medical sterilization to environmental cleanup and ...

Hydrogen production through water electrolysis is a cornerstone of the clean energy transition, but it relies on efficient ...

A new solar-electrolysis system uses a copper-doped catalyst to turn farm waste into hydrogen and valuable formate.

This study presents a highly efficient approach to solar hydrogen production by pairing water electrolysis with the selective oxidation of biomass-derived glucose. Central to this advance is a ...

Molecular vanadium cluster on carbon nanotubes switches between oxygen and hydrogen production in acid, depending on assembly ...

An international research team led by Professor Philip C.Y. Chow at The University of Hong Kong (HKU) has unveiled a new catalyst that overcomes a major challenge in producing green hydrogen at scale.

Clean hydrogen will move from a speculative buildup to a series of advances built around specific end-use business cases.

Hydrogen fuel could be an important part of the clean energy revolution. But it faces some challenges. Most hydrogen today is made from natural gas using a process called steam methane reforming, ...