A materials science team at the University of Hong Kong has developed a steel ...

The electrolytic splitting of saline water is a highly desirable and sustainable method for the mass production of green hydrogen, but seawater contains many impurities that hinder the long-term ...

Conventional catalysts for hydrogen production via water electrolysis usually contain precious metals and are expensive. However, cheaper alternatives have been developed -- for example, ...

The mechanisms, key factors, and merits of pulsed dynamic electrolysis (PDE) in energy and mass transfer, extending system lifespan, and enhancing water electrolysis are covered. Synergies and ...

Breakthrough alloy unveiled: HKU scientists created SS-H2, a stainless steel that resists corrosion in harsh seawater electrolysis environments, outperforming conventional alloys. Cost savings ...

A research team at Kookmin University has developed a heterostructured catalyst that efficiently promotes hydrogen production ...

Excessive global greenhouse gas emissions have intensified climate change, posing serious threats to ecosystems and socio-economic systems. The Paris Agreement aims to limit global warming to below 2 ...

The European Commission is advancing market matching for renewable and low-carbon hydrogen by inviting European offtakers to signal supply interest under the Hydrogen Mechanism, while Germany’s ...