The conversion and storage of solar energy to chemical energy via artificial photosynthesis
holds significant potential for optimizing the energy situation and mitigating the global …

With the development of industrial society, organic wastewater produced by industrial
manufacturing has caused many environmental problems. The vast majority of organic …

Solar-driven water splitting provides a leading approach to store the abundant yet
intermittent solar energy and produce hydrogen as a clean and sustainable energy carrier. A …

Metal clusters supported on TiO2 are widely used in many photocatalytic applications,
including pollution control and production of solar fuels. Besides high photoactivity, stability …

The conversion of solar energy to chemical energy is a promising way of generating
renewable energy. Hydrogen production by means of water splitting over semiconductor …

Photocatalytic water splitting is a sustainable technology for the production of clean fuel in
terms of hydrogen (H2). In the present study, hydrogen (H2) production efficiency of three …

Efficient charge transfer and light-trap** units are pivotal prerequisites in the realm of Ti-
based photoanode photoelectrochemical (PEC) water splitting. In this work, we successfully …

Nanostructured photocatalysts have attracted ever-growing research attention in the
application of solar energy for water disinfection. Over the past few decades, various …

It is a subject of exploration whether the phase pure anatase or rutile TiO2 or the band
alignment due to the heterojunctions in the two polymorphs of TiO2 plays the determining …

Photocatalytic hydrogen production via solar water splitting is one of the most promising
solutions for sustainable energy and environmental remedy issues. In the past few decades …