As green hydrogen emerges as a key next-generation clean energy source, securing technologies that enable its stable and cost ...

Scientists have pioneered a novel approach to water electrolysis catalysts for green hydrogen production. Originally, the term "Sherpa" denoted a hill-tribe of Tibetan descent, but it has since become ...

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 ...

Producing green hydrogen efficiently and affordably remains a major challenge for the global energy transition, particularly in acidic water ...

AI technique developed to rapidly identify high-performance, platinum-group-free electrode materials for water electrolysis, crucial for green hydrogen production. New electrocatalytic materials found ...

Asahi Kasei plans construction of new alkaline water electrolysis test plant for hydrogen production by early 2024. Tests to be conducted around responsiveness to power fluctuation of renewable energy ...

The research progress of HEMs as the catalysts for electrochemical water electrolysis in terms of theoretical research, synthesis, and application. The specific properties of HEMs have profound ...

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 ...

Researchers at Johannes Gutenberg University Mainz (JGU) have developed a method that gives access to the valuable raw ...

Hydrogen production from water may seem straightforward: splitting water into hydrogen and oxygen gases using an electric current. However, one major challenge is the significant cost associated with ...