Semiconductor photocatalysis acts as a sustainable green technology to convert solar
energy for environmental purification and production of renewable energy. However, the …

Oxide perovskites have emerged as an important class of materials with important
applications in many technological areas, particularly thermocatalysis, electrocatalysis …

The use of solar energy to catalyze the photo-driven processes has attracted tremendous
attention from the scientific community because of its great potential to address energy and …

Semiconductor‐based photocatalysis as a productive technology furnishes a prospective
solution to environmental and renewable energy issues, but its efficiency greatly relies on …

Solar energy is attractive because it is free, renewable, abundant and sustainable.
Photocatalysis is one of the feasible routes to utilize solar energy for the degradation of …

It is a well‐known fact that the pronounced photogenerated charge recombination and poor
light absorption are the main bottlenecks of photocatalysis applications. The conventional …

Defect engineering in photocatalytic materials has been proven as a versatile approach to
maneuver their performance in solar-to-chemical energy conversion. In this article, the state …

Hydrogen is a potential future energy source that could replace conventional fuel and
provide the necessary energy. Multiferroic materials are the most likely choices for water …

Photocatalytic water splitting is the environmentally benign artificial photosynthetic pathway
to dissociate water into hydrogen and oxygen. It provides a great platform for bridging the …

The introduction of vacancy defects in semiconductors has been proven to be a highly
effective approach to improve their photocatalytic activity owing to their advantages of …