The photocatalytic water splitting process holds appeal for scientists as a solution to both energy and environmental problems. In this process, water is split into oxygen and hydrogen using light ...

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 ...

Solar water splitting is one of the most direct ways to produce green hydrogen using sunlight. However, most photocatalysts ...

Hetero-interfaces have the potential to not only address the drawbacks of single-phase materials but also to develop new capabilities for water-splitting applications. A paper accepted for publication ...

The rise of hydrogen as an important future renewable energy source is accelerating – and Flinders University has made an important contribution to the understanding of the stability of photocatalysts ...

Scientists in Belgium have designed a solar-powered electrolyzer that uses standard-sized, large area shingled silicon PV for water splitting. The system is reportedly able to achieve ...

Hydrogen is a promising clean energy source with great potential to replace greenhouse gas-emitting fossil fuels. While total water (H2O) splitting is the easiest way to obtain hydrogen (H2), this ...

Researchers at Stanford University have developed a type of electrode which is highly resistant to salt corrosion, therefore allowing them to produce hydrogen using seawater. Applied at a larger scale ...