The new ruthenium core-shell catalyst sets a benchmark in hydrogen production, combining high efficiency with reduced ...

The next generation of sustainable hydrogen production could be made possible with an advanced electrochemical catalyst.

A Korean research team has successfully developed an advanced electrochemical catalyst. This innovation is expected to lead ...

Seoul National University's College of Engineering has announced a major breakthrough in eco-friendly hydrogen production. A research team led by ...

Seoul National University’s College of Engineering has announced a major breakthrough in eco-friendly hydrogen production. A ...

Cobalt lithium oxide can store up to 70% more energy than existing materials ... Transition metals are metallic elements, such as nickel, cobalt, and ruthenium, that exchange electrons with lithium ...

Hydrogen is a much-debated option in terms of CO₂-neutral energy production. Electrolyzer units that split water into its constituent oxygen and storable hydrogen are supplied with electricity from ...

KAIST professor develops high-performance eco-friendly ammonia synthesis catalyst Renowned academic pioneers sustainable catalysts for ammonia synthesis in innovative research ...

Key Laboratory of Biomass Chemical Engineering of Ministry of Education, College of Chemical and Biological Engineering, Zhejiang University, Hangzhou 310058, P.R. China Institute of Zhejiang ...

Researchers from the Institute of Science Tokyo have discovered a rubidium-based material that conducts well and stays stable, which could help make solid oxide fuel cells work better. Advancing Oxide ...

Experiments have shown that when burning such composite fuels, emissions of sulfur oxide (SO2) are reduced by half, carbon monoxide (CO) by 28%, nitrogen oxide (NO) by 43%, and carbon dioxide (CO2) by ...