Solar‐driven conversion of CO2 into high value‐added fuels is expected to be an
environmental‐friendly and sustainable approach for relieving the greenhouse gas effect …

Employing semiconductor photocatalysis to transform solar energy into chemical energy
provides a practicable strategy for the alleviation of energy and environmental crisis …

Photocatalysis utilizes solar energy to produce clean fuels such as hydrogen or generate
highly reactive species to subsequently break the organic pollutants into clean end products …

This study developed a novel advanced oxidation process, coupling activation of
peroxymonosulfate (PMS) by electrochemistry and catalyst based on an advanced …

Semiconductor photocatalysis is a new sustainable development technology that has
demonstrated remarkable potential in the fields of energy-production and environmental …

Exploring new and efficient photocatalysts to boost photocatalytic CO 2 reduction is of critical
importance for solar-to-fuel conversion. In this study, through the in-situ growth method, a …

Abstract gC 3 N 4 exhibits excellent performance in photocatalytic degradation of organic
pollutants, but the high recombination rate of photogenerated electron-hole pairs limits its …

Inefficient utilization of photo-induced charge carriers and low recyclability are limitations for
photocatalyst to get access to the practical application. A novel ternary BiVO 4/gC 3 N 4/NiFe …

Nanozyme technology is a relatively new technology that has shown promising applications
in the removal of water pollutants. This study utilized a CeO 2/foveolate gC 3 N 4 (CeO …

Photocatalytic elimination of antibiotic pollutant is an appealing avenue in response to the
water contamination, but it still suffers from sluggish charge detachment, limited redox …