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 classification and the relationship between activity/stability of acidic OER electrocatalysts. Credit: NIMTE As one of the most efficient and environmentally friendly approaches to hydrogen ...

A recent breakthrough published in Nature Energy by research teams from Tianjin University, the University of New Mexico, Sun Yat-sen University, and other institutions has successfully overcome the ...

The limited reservoir of fossils fuels and the ever-increasing threats of climate change have encouraged researchers to develop alternative technologies to produce eco-friendly fuels. Green hydrogen ...

A team has developed a less expensive water electrolysis system that works under alkaline conditions but still produces hydrogen at comparable rates to the currently used system that works under ...

A new kind of cathode that is more resistant to power fluctuations can render (sea)water electrolysis more sustainable, cost-effective, and more suited for coupling with intermittent renewable energy ...

Designing a catalyst is incredibly difficult—yet researchers at Tohoku University have successfully created a catalyst that is ranked as one of the best. Their catalyst greatly speeds up the oxygen ...

This schematic illustrates the comprehensive framework for advancing non-noble metal catalysts in acidic oxygen evolution reactions (OER). It highlights three core research questions—mechanism of ...

Nickel-cobalt metal dimer on nitrogen-doped carbon can catalyze electrolysis under both acidic and basic conditions. The limited reservoir of fossils fuels and the ever-increasing threats of climate ...