Under the leadership of Prof. Dr. Francesco Ciucci from the University of Bayreuth, a German–Chinese research team has developed a new method for the electrochemical splitting of water. This not only ...

Electrochemical catalysts used in water splitting often show poor performance due to low electrical conductance of (oxy)hydroxide species produced in situ. To overcome this challenge, researchers have ...

A joint research team led by Professor Hyung Mo Jeong from the School of Mechanical Engineering at Sungkyunkwan University ...

Researchers at IIT Guwahati have developed a revolutionary composite coating that enhances solar water-splitting efficiency, ...

A recent study published in Advanced Functional Materials explored a novel approach to enhancing oxygen evolution reaction (OER) electrocatalysts for water electrolysis. It focused on cobalt-iron ...

As energy demand continues to rise, research into new, efficient renewable and clean energy sources is an urgent priority. Currently, renewable energy sources like solar, wind, tide, and geothermal ...

A water-splitting cell built without platinum or any other precious metal has now run continuously for more than 1,000 hours at the kind of electrical throughput that commercial hydrogen plants demand ...

Hydrogen is a promising clean energy carrier, but its adoption depends on cost-efficient production. Electrochemical water splitting is a key method, yet it relies on scarce and expensive noble metal ...

Researchers at Tohoku University have developed a stable catalyst suitable for practical use. This stability was achieved through an in-depth study of "reconstruction," a complex chemical and ...

Water splitting is a fundamental process in green energy, mainly for sustainable hydrogen production through electrolysis. A key step in this process is the OER, which is often limited due to slow ...