Japanese scientists have developed a new means of cracking water into hydrogen fuel using sunlight. Using a special ...

WASHINGTON: American researchers have developed an inexpensive hybrid catalyst capable of splitting water to produce hydrogen, having a potential for large-scale commercialization. A study published ...

A research team at the Institute of Materials Chemistry at TU Wien, led by Professor Dominik Eder, has developed a new ...

Water splitting—breaking water molecules into hydrogen and oxygen—is a promising pathway to sustainable energy. However, this ...

Water can be a catalyst for peace and security with a critical role in preventing conflicts and promoting cooperation among communities and nations -- but only if managed equitably and sustainably.

Photocatalytic overall water splitting for hydrogen production is ... mainly focus on the ground-state structure of the catalyst, while the electron-hole recombination occurs in the excited ...

As for the water-splitting catalyst, the scientist developed a bifunctional NiFeMo device prepared by electrodeposition. “The bifunctional catalysts enable the PV–EC system to get rid of the ...

Photocatalytic overall water splitting for hydrogen production is ... mainly focus on the ground-state structure of the catalyst, while the electron-hole recombination occurs in the excited ...

The cobalt-based catalyst is also similar to PSII in other ways: it is able to split water in ambient conditions at neutral pH, and works even when non-purified water is used, as shown by ...

Artificial photosynthesis — splitting water with light — is an attractive way to make hydrogen, but what happens to the oxygen? A catalyst that aids in the efficient production of gaseous ...

The semiconductor catalyst, a forest of nanowires of indium ... photons and converts them into electrons, which are used to split water into hydrogen and oxygen. The nanowires are peppered with ...