Xuefu Rd. 301
Xhenjiang, 212013
China
Jiangsu University
Covalent bond, UiO-66-NH2, Photocatalytic CO2 reduction, Reduced graphene oxide
CO2 adsorption, Photocatalytic CO2 reduction, COFs, MOFs, Core-shell structure
Photocatalysts, GaP, heterojunction, migration pathway, hydrogen production
CO2 reduction, metal-organic framework (MOFs), Hierarchical structure, heterostructure, Localized Surface Plasmon
g-C3N4, Photocatalytic membranes, BaTiO3, Degradation, Tetracycline
Ultra-thin g-C3N4, 2Au/In2O3/H1.5CN, CO2 reduction, indirect Z-scheme heterojunction.
Plasmon, Hotspot, In-situ monitoring, Surface-enhanced Raman scattering, Decarboxylation, interface, Core-satellite nanoparticles, Catalysis
Plasmon, Hotspot, In-situ monitoring, Surface-enhanced Raman scattering, Decarboxylation, Interface, Core-satellite nanoparticles, Catalysis
photocatalysis, Overall water-splitting, CuZnGaS nanoparticles, BiVO4 nanorods, S-scheme heterojunction
Dehaogenation, Perylene Diimide, Diradical Intermediate, Aromatic Halides, Photocatalysis
Polymeric carbon nitride, Defects, Heteroatom dopants, Photocatalysis, hydrogen peroxide
Single atom Cu, *COOH intermediate, photocatalytic reduction of CO2, product selectivity
Carbon Nitride, photocatalytic H2O2 generation, cyano groups, nitrogen vacancies, compact interlayer