Study reveals defects in graphene enable covalent bonding with TiO2, creating hybrid states that boost charge transfer and ...

TiO2 photocatalysts have great potential for environmentally friendly applications, such as pollution remediation, artificial photosynthesis and CO2 ...

A team of Yale researchers developed a new method that helped them see how the light-driven catalyst splits water into ...

Solar-power photocatalysis—turning sunlight into energy—holds promise for sustainable and cost-efficient energy and chemical ...

A hybrid photocatalyst system from Science Tokyo tackles an overlooked flaw in artificial photosynthesis to dramatically improve CO 2-to-formate conversion. Unlike conventional designs where light ...

Researchers at Nagoya University have created a more efficient iron-based photocatalyst that could reduce the need for rare and expensive metals in advanced chemistry. Unlike earlier designs, the new ...

ABSTRACT: TiO2 thin films were prepared via a water-based sol-gel method and deposited using dip and spin coating techniques to investigate the relationship between band gap energy and photocatalytic ...

Methane (CH₄), the colorless and odorless gas that makes up most natural gas on Earth, has so far been converted into useful fuels and chemicals via energy-intensive processes that need to be carried ...

Faculty of Chemical Engineering, Yunnan Provincial Key Laboratory of Energy Saving in Phosphorus Chemical Engineering and New Phosphorus Materials, Yunnan Technological Innovation Center of Phosphorus ...