本综述系统探讨了光催化水分解（Photocatalytic Water Splitting）技术从材料开发到系统集成的全链条研究进展，重点剖析了高效光催化剂（如TiO2基材料）的设计策略、规模化反应系统构建的工程挑战，以及产学研协同推动太阳能制氢（Solar H2）产业落地的关键路径。

As both global energy consumption and concerns over environmental contamination continue to increase, it is imperative to develop renewable energy resources that neither rely on fossil fuels nor emit ...

Researchers at the Chinese Academy of Sciences have developed a scandium (Sc)-doped titanium dioxide (TiO 2) semiconductor in the rutile crystal phase. Photocatalytic water splitting is a clean energy ...

Solar energy is clean and abundant, but when the sun isn't shining, you must store the energy in batteries or through a process called photocatalysis. In photocatalytic water splitting, sunlight ...

Hydrogen is seen as an energy source of the future – at least, when it is produced in a climate-friendly way. Hydrogen can also be important for the production of active ingredients and other ...

University of Michigan researchers developed a new photocatalytic water splitting system that is reportedly able to reach a 9.2% solar-to-hydrogen (STH) efficiency. The proposed system uses the higher ...

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 ...

A comprehensive look at doping photocatalysts in water splitting under visible light is presented. Doping to regulate the band structure of Bi-based composite oxides achieves overall water splitting.

(Nanowerk News) Urbanization and industrialization have led to escalating environmental issues, with dye wastewater, due to its high toxicity, posing a significant challenge. Traditional treatment ...