An innovative magnetic Ni0.1Co0.9Fe2O4/g-C3N4 nano-micro-spherical heterojunction composite photocatalyst with an extraordinarily prominent visible-light-irradiation degradation performance toward organic pollutants

Preparation of LDO@TiO2 core-shell nanosheets for enhanced photocatalytic degradation of organic pollution

TiO₂-based nanosheet materials with a core-shell structure are expected to be one of the promising photocatalysts for the degradation of organic pollution. It is a challenge to synthesize TiO₂ by the desired nucleation and growth process, so most reported TiO₂ core-shell photocatalysts are prepared using TiO₂ as a core material. Layered double hydroxides (LDHs) are considered ideal platforms to grow TiO₂in situ and further serve as additional components to improve the separation of photogenerated charge carriers. In this work, we report the design and fabrication of anatase TiO₂-coated ZnAl-layered double oxide (LDO@TiO₂) nanosheets, which involve the in situ growth of TiO₂ on ZnAl-LDH followed by subsequent calcination treatment. The resulting LDO@TiO₂ photocatalyst yields typical core-shell nanosheet morphology with a mesoporous structure, exhibiting excellent photodegradation and mineralization efficiency for organic pollution.

Loading SnS2 nanosheets decorated with MoS2 nanoparticles on a flake-shaped g-C3N4 network for enhanced photocatalytic performance

A g-C₃N₄/MoS₂/SnS₂ ternary composite photocatalyst with a unique photo-generated carrier transfer pathway is obtained, which exhibits excellent photocatalytic activity.

ZIF-8 calcination derived Cu2O–ZnO* material for enhanced visible-light photocatalytic performance

The mechanism of TC degradation over Cu₂O–ZnO* rich in oxygen vacancies.