Platinum and iridium have long been the bottleneck metals in green hydrogen production. These rare, expensive elements sit at the heart of today’s best water-splitting electrolyzers, and their cost ...

A research team from Sungkyunkwan University and Kyungpook National University has developed a non-precious ...

Hydrogen (H 2) is a promising fuel for reducing greenhouse gases, especially if produced by using renewable energy to split water molecules (H 2 O). But as simple as it may seem to break water into ...

A research team from Pohang University of Science and Technology (POSTECH) and Seoul National University has developed a new method to activate water-splitting catalysts at an oven temperature of just ...

A research team, led by Prof. Ya Yan from the Shanghai Institute of Ceramics of the Chinese Academy of Sciences and including scientists from Huazhong University of Science and Technology, Shanghai ...

It also demonstrated excellent reactivity and stability in both seawater and pure water splitting cells when compared to commercial iridium dioxide (IrO 2) catalyst. Assoc Prof Lu said, “This finding ...

As the world shifts toward carbon neutrality, green hydrogen produced via electrochemical water splitting has become a ...

Researchers in Sweden have developed a powerful new material that dramatically boosts the ability to create hydrogen fuel from water using sunlight, making the process eight times more effective than ...

A newly developed pentanuclear iron complex can offer an efficient, stable, and cost-effective solution for water oxidation. By electrochemically polymerizing the complex, researchers have obtained a ...