A hybrid photocatalyst system from Science Tokyo tackles an overlooked flaw in artificial photosynthesis to dramatically ...

MLIP calculations identify optimal dopants for photocatalytic Sn3O4. Aluminum doping boosted hydrogen production 16-fold, ...

Photocatalytic overall water splitting (OWS) to produce hydrogen is one of the most promising technologies to solve energy and environmental problems and realize effective conversion and storage of ...

In the future, hydrogen produced from sunlight and water using photocatalysts could provide a source of clean energy. Researchers have developed a method to detect the oxygen produced from this ...

Clean energy plans, including the U.S. Infrastructure Investment Act’s “Clean Hydrogen Road Map,” are counting on hydrogen as a fuel of the future. But current hydrogen separation technology is still ...

A photocatalyst made using a combination of titanium dioxide and copper oxide nanoclusters inactivates various variant types of novel coronavirus SARS-CoV-2. Scientists have developed this antiviral ...

Energy converter: the device converts sunlight, carbon dioxide and water into oxygen and formic acid. (Courtesy: University of Cambridge) A new photocatalyst sheet that uses light to convert carbon ...

Inexpensive water-splitting catalysts could lower the costs of generating hydrogen for fuel cells. Towards that end, scientists in England now have integrated a stable, low-cost organic catalyst into ...

A new study reports that a biochar-enhanced photocatalyst can efficiently degrade antibiotic contaminants in water, offering a promising strategy for ...

Rare sugars such as D-tagatose and D-allose are in demand as both chemical feedstocks and building blocks in the pharmaceutical industry. But they’re called rare because they don’t occur commonly in ...