Researchers have revealed that semiconductor electrodes can achieve green hydrogen production. They found that ...

This month, researchers at University of Jyväskylä in Finland pulled off a breakthrough in hydrogen production. Led by ...

When platinum clusters are deposited on octahedral titanium dioxide nanoparticles, a photocatalyst is obtained that produces higher quantities of hydrogen and, more importantly, is much more stable ...

Researchers at the University of Jyväskylä (Finland) have led an international collaboration to study how semiconductor materials enable the production of green hydrogen through ...

MLIP calculations identify optimal dopants for photocatalytic Sn3O4. Aluminum doping boosted hydrogen production 16-fold, ...

As part of ongoing efforts to develop materials that could enable alternative energy sources, researchers have produced a titanium oxide nanofilament material that can harness sunlight to unlock the ...

Add Yahoo as a preferred source to see more of our stories on Google. Scientists developed a nanosized oxyhalide photocatalyst with record solar fuel efficiency, achieving breakthroughs in hydrogen ...

A research team has achieved a significant breakthrough in the development of a hybrid silicon photocatalyst. A team of researchers, led by Professor Jungki Ryu in the School of Energy and Chemical ...

When burned or used in fuel cells, hydrogen produces nothing but water, making it an ideal candidate for reducing global carbon emissions. Yet, most of the hydrogen produced today comes from fossil ...

Atomic-level simulations and electrochemical experiments reveal how charge centers called polarons form on semiconductor surfaces to activate green hydrogen production.

Clean energy plans, including the U.S. Infrastructure Investment Act’s “Clean Hydrogen Road Map,” are counting on hydrogen as a fuel of the future. But current hydrogen separation technology is still ...