Electrocatalysts play a key role in enabling hydrogen generation through water splitting. Among the latest materials under investigation, two-dimensional (2D) materials known as MXenes have shown ...

Hydrogen has long been billed as the clean fuel that could power steel mills, cargo ships and even long-haul trucks without pumping carbon into the atmosphere, but splitting water to make it has ...

In recent years, photocatalytic technology has emerged as a promising approach for converting solar energy into storable hydrogen fuel, demonstrating significant application potential in the fields of ...

Japanese researchers are closing in on a long promised energy dream, using only sunlight and water to generate clean hydrogen fuel with no smokestacks or power cables in sight. Their latest technology ...

Electrolytic hydrogen production through water splitting is a crucial technology for achieving carbon neutrality. The core processes involved are the oxygen evolution reaction (OER) and the hydrogen ...

The material can effectively capture sunlight, using the solar energy for hydrogen production through the photochemical water splitting reaction. Image Credit: Olov Planthaber The material works by ...

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 ...

Splitting water molecules takes more energy than calculations suggest, and is a key roadblock to cheap hydrogen fuel production. Now, scientists have discovered why. When you purchase through links on ...

Researchers tracked real-time light-induced charge on gold nanorods, modeling them as capacitors, aiding CO2 reduction, water splitting, and solar energy conversion.

Electro- and photocatalytic materials are central to enabling sustainable energy conversion processes such as water splitting, CO2 reduction, oxygen ...