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 …

Abstract Bismuth tungstate (Bi 2 WO 6)-based photocatalytic materials have become a
research hotspot in photocatalytic energy conversion and environmental remediation due to …

Envisaging headway in the applicability of sustainable H 2 energy, the novel report of the
fabrication of MoS 2-BN/TiO 2 (MBT) heterogeneous nanostructures has been proposed via …

Hydrogen energy is environmental-friendly and considered an attractive alternative to fossil
fuels. Among the feasible technologies for hydrogen generation, photocatalysis-derived …

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 …

One of the most efficient ways for the photogenerated charge carriers is by the development
of heterojunction between p-type and n-type semiconductors, which creates an interfacial …

Semiconductor-based photocatalytic and photoelectrochemical water splitting is an ultimate
source of hydrogen generation for tackling the ongoing fuel crisis. In this context, we have …

The simultaneous realization of sustainable energy and gas sensors dealing with the
emission of pollutants is indispensable as the former thrives on the minimization of the latter …

In the realm of energy storage and conversion powered by electro-or photocatalysts,
tremendous efforts are devoted on producing effective and long-lasting oxide catalysts …

Highly efficient Z-scheme MoO3–SrTiO3 heterostructured nanocatalytic systems were
engineered via a sol–gel chemical route and exploited in green H2 energy synthesis via …