The direct Z-scheme heterojunction has been recently emerging as an appealing
architecture for photocatalysts design. Its efficiency depends on the interfacial and structural …

Single-atom catalysts (SACs) containing “single-site” centers have become a distinct
category in catalytic science. With positive achievements for various applications, SACs blur …

Control and insight into active sites and charge transport behaviors are challenging topics
for fabricating heterojunction photocatalyst and investigating photocatalytic reaction …

The layered double hydroxides/graphitic carbon nitride (LDH/gC 3 N 4) heterostructures
stand as promising photo-and electro-catalysts for water oxidation and reduction. These …

SrTiO 3 is a well-known highly active photocatalyst with high energy conversion efficiency. In
this study, we investigated the formation of oxygen vacancy by using the chemo-mechanical …

Synthesis of a metal-free carbon nitride (g-C3N4) photocatalyst in the form of nitrogen-rich g-
C3–x N4+ x derivatives is desirable for efficient solar to hydrogen conversion and remains a …

Increasing the availability of π-electron in graphitic carbon nitride (gC 3 N 4) can reduce the
band gap and thus enhance the photocatalytic hydrogen (H 2) generation activity upon …

Hydrogen production from wastewater system has the potential to add a new dimension to
the energy economy. Urine is an abundant waste and contains about 90–96% of water …

Integrating H2O2 evolution with oxidative organic synthesis in a semiconductor‐driven
photoredox reaction is highly attractive since H2O2 and high‐value chemicals can be …

The main objective of the present research is to create clean energy from Goshala waste in
a sustainable way. Accordingly, the cogeneration of hydrogen fuel and zinc oxide …