Perspectives for chemical-assisted water electrolysis provide valuable insights into innovative catalyst design strategies and outline future directions for achieving low-voltage and high-efficiency ...

When water is split electrolytically, the result is typically hydrogen -- and 'useless' oxygen. Instead of oxygen, you can also produce hydrogen peroxide, which is required for many branches of ...

Roadmap of Dual-Value Electrosynthesis. This schematic illustrates the integrated framework of advanced electrosynthesis systems that couple oxygen evolution reaction (OER) alternatives with reduction ...

Hydrogen is widely seen as a key energy source for the future, which makes it critical to understand how water is split during electrolysis ...

Have you ever thought green hydrogen production could skip bulky compressors and the messy risk of mixing gases? That’s exactly the leap Clyde Hydrogen System ...

Researchers developed a catalyst that enhances the stability of alkaline water electrolysis systems. A research team consisting of Professor Yong-Tae Kim, Dr. Sang-Mun Jung, and Yoona Kim, an MSc, ...

To achieve future carbon neutrality, it is crucial to generate hydrogen from clean sources, like splitting water molecules using electricity through electrolysis. Unfortunately, existing methods are ...

The race for green hydrogen dominance is on, with global markets ramping up the scale of their ambition in terms of deployment. But this too is causing a further fight for market share among the three ...