Low-cost, durable electrolyzers (center) could use sustainable power from wind and solar to turn pure water into hydrogen gas that can fuel industrial plants as well as heavy vehicles. A University of ...

A research team from two London universities have developed a multi-layer device that addresses the instability of organic materials in water to further their use in direct solar hydrogen generation.

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 ...

The company has added four new products to its Excalibur line of all-position, low-hydrogen electrodes for manual stick welding. The new electrodes are the 7018-A1 MR for 0.50 percent molybdenum ...

Current electrochemical theory does not adequately describe realistic platinum electrodes. Scientists at Leiden University ...

Researchers developed scalable MOF electrodes that lower hydrogen costs to $2.71 per kg, offering a practical path toward large-scale clean energy production. Hydrogen is increasingly viewed as a ...

This study presents an effective process for preparing advanced H 2 sensors that combine high precision with rapid detection to meet critical safety standards in industrial settings. Hydrogen is ...

Dr. Ji-Hyung Han's research team from the Korea Institute of Energy Research has developed a high-performance carbon cloth-based electrode that maintains stable performance even under high current ...

Technology Research Center of the Low Carbon Institute published an important research paper in the renowned journal Journal of Materials Chemistry A, titled "The effect of Nafion on electrochemical ...

Ever wondered what happens when hydrogen fuel cells shake off the weight of big rigs and take to the sky? That’s the leap ...