As the world transitions away from fossil fuels to mitigate the global warming crisis, hydrogen is gaining the limelight as ...

Copper is the most promising catalyst for turning carbon dioxide into valuable chemical feedstocks and liquid fuels through ...

Recently, a research team achieved real-time tracking of electronic/magnetic structure evolution in Li-rich Mn-based ...

Electrolyzers are devices that can split water into hydrogen and oxygen using electricity and via a process known as ...

A high-entropy electrocatalyst engineered by NIMTE efficiently produces hydrogen and glycerate, advancing sustainable energy conversion and chemical synthesis.

Innovative mesoporous Co3O4 catalysts with atomically dispersed iridium offer a breakthrough in hydrogen production, ...

New research challenges the view that proteins are the only key to evolution, highlighting the importance of lipids.

A new catalyst structure offers a potential pathway toward more cost-effective hydrogen production via water electrolysis. The material centers on mesoporous single-crystalline Co3O4 doped with ...

A new catalyst structure offers a potential pathway toward more cost-effective hydrogen production via water electrolysis.

A new catalyst structure offers a potential pathway toward more cost-effective hydrogen production via water electrolysis.

Unlocking the potential of green hydrogen production through AI and ML, revolutionizing the industry and driving towards ...

Clathrates are characterized by a complex cage structure that provides space for guest ions too. Now a team has investigated the suitability of clathrates as catalysts for electrolytic hydrogen ...