In the past several decades, photocatalysis has shown great potential in solving energy and
environmental problems, and indium oxide as a semiconductor photocatalyst has received …

Converting intermittent energies into green and storable chemical fuels (like hydrogen) is of
great importance to address the global energy crisis and environmental issues …

Carbon dioxide (CO2) hydrogenation to methanol with H2 produced with renewable energy
represents a promising path for the effective utilization of a major anthropogenic greenhouse …

The process of photocatalysis, regarded as a promising approach for tackling the energy
crisis and environmental pollution issues, is crucial for turning solar light into chemical …

The rapidly increasing global energy consumption utilizing conventional polluting fuels has
been putting enormous stress on the health of our environment and thereby the long term …

The conversion of solar energy into chemical energy via photoeletrochemical water splitting
technology is a promising strategy to contribute to carbon-neutral systems. In order to rapidly …

The construction of heterojunction structures is considered as a promising method in the
field of photocatalytic hydrogen evolution. Here, In-MOF precursor and melamine were …

The efficient degradation of organic effluent is always desirable when using advanced
photocatalysts with enhanced activity under visible light. Nickel-doped indium oxide (Ni …

Photoelectrochemical water splitting has been envisaged as a promising green technology
for efficient solar-to-fuel conversion. Graphitic carbon nitride (g-C3N4) demands prime focus …

Increased charge transfer and light absorption as well as large specific surface area are
effective ways to improve the catalytic efficiency of photocatalysts. In this paper, barbituric …