A group has developed a low-cost method to produce carbon-free 'green' hydrogen via solar-powered electrolysis of seawater. A happy byproduct of the process? Potable water.

Studying Chemistry & Biochemistry gives students first-hand experiences central to success in careers in medicine, pharmaceutical and high-tech industries, research, government, law, business, public ...

Iron and its alloys, such as steel and cast iron, dominate the modern world, and there’s growing demand for iron-derived ...

Innovative chemical-assisted electrolysis techniques enhance hydrogen production, addressing traditional limitations and promoting sustainable energy solutions.

Learn about new methods of reducing and recycling plastic waste with featured scientist: Anne McNeil, Chemistry Dept, ...

Designed a "core-shell structure catalyst" using cost-effective ruthenium to improve its potential for commercialization.

Carbon-based materials have seen rapid and growing scientific interest in the last decade focused on their use as catalysts for electrochemical applications ...

Perspectives for chemical-assisted water electrolysis provide valuable insights into innovative catalyst design strategies and outline future directions for achieving low-voltage and high ...

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Cui Xiaoju from the Dalian Institute of Chemical Physics (DICP ... that enables highly efficient hydrogen production via H 2 S electrolysis. Researchers designed a graphene encapsulating nickel ...