Designing optimized catalysts that use least amount of iridium has been a challenge. Water electrolysis offers an ideal process for hydrogen production, which could play a key role in the global ...

Researchers have developed a material to remove urea from water and potentially convert it into hydrogen gas. By building these materials of nickel and cobalt atoms with carefully tailored electronic ...

A Korea Institute of Materials Science (KIMS) research team, led by Dr. Dahee Park at the Hydrogen Energy Materials Research Center, has successfully developed a high-performance catalyst that ...

ICFO family picture: from left to right: F. Pelayo García de Arquer, Marinos Dimitropoulos, Lu Xia, Aparna M. Das, Viktoria Holovanova, Anku Guha, and Ranit Ram. Hydrogen is a promising chemical and ...

The generation of green hydrogen by water electrolysis represents an exciting decarbonisation opportunity. However, the ...

The development of clean and efficient renewable energy is a key strategy for achieving green energy transition and low-carbon growth. As an ideal "zero-carbon" energy carrier, hydrogen can be ...

Green hydrogen, produced by splitting water molecules using renewable power in a process called electrolysis, is inherently water intensive.

Water splitting is a fundamental process in green energy, mainly for sustainable hydrogen production through electrolysis. A key step in this process is the OER, which is often limited due to slow ...

A team of scientists reports a new milestone for the sustainable production of green hydrogen through water electrolysis. Their new catalyst design harnesses so far unexplored properties of water to ...