Abstract Polymeric semiconductor, Graphitic Carbon Nitride (gC 3 N 4), has emerged as one
of the desired materials in photocatalytic hydrogen evolution (PHE) due to its visible-light …

Due to its unique electronic structure and special size effect, two-dimensional (2D)
nanomaterials have shown great potential far beyond bulk materials in the field of …

The increasing consumption of energy and consequent fast depletion of fossil fuels and
associated environmental challenges necessitate transformative innovations in the field of …

Photocatalytic hydrogen production using solar irradiation is the best solution for existing
energy crisis and ecological issues. Various efforts have been made to design a stable …

Abstract Graphitic Carbon Nitride (gC 3 N 4) photocatalyst is considered a prime material for
environmental remediation and solar energy conversion application. It drew attention in the …

Artificial photocatalytic energy conversion is considered as the most potential strategy for
solving the increasingly serious energy crisis and environmental pollution problems by …

Water splitting technology is an innovative strategy to face the dependency on fossil fuels
and, at the same time, address environmental pollution issues. Electrocatalysts seem to be …

As a semiconductor material, graphitic carbon nitrate (gC 3 N 4) has gained a remarkable
interest and attracted the attention of many scholars in environmental photocatalysis, due to …

Taking advantage of the multi-walled carbon nanotubes in enhancing electrical conductivity
and gas generation, metallic silver/carbon nanotube composite (Ag@ CNT) was prepared …

In-situ hydrogen production and CO 2 conversion to fuels have attracted significant attention
as rational solutions to alleviate energy crises and climate issues. However, the …