Ternary nanocomposite ZnO-g–C3N4–Go for enhanced photocatalytic degradation of RhB

“…The carbon materials such as GO, RGO, CNTs, graphene aerogels, carbon xerogel, and CDs exhibit various functional properties that can benefit the photocatalytic reactions. ,,,,,− Like GCN, GOs also serve as excellent substrates for the growth of ZnO and inhibit their growth during the crystallization step . The GO can trap the excited electrons from the CB of ZnO and GCN, thereby preventing electron–hole recombination.…”

“…The hydrothermal treatment and annealing steps are amended to improve the adhesion between the crystallized ZnO and GCN. ,− The particle sizes of ZnO were reported to be ∼44.2 and ∼6.2 nm in the pure form and in the composite structure, respectively, which suggests that GCN has an inhibition effect on the particle growth dynamics of ZnO . The GCN nanofilms were coated on the surface of porous ZnO-NSs via thermal decomposition of bulk GCN .…”

Review and Perspective on Rational Design and Interface Engineering of g-C₃N₄/ZnO: From Type-II to Step-Scheme Heterojunctions for Photocatalytic Applications

“…The carbon materials such as GO, RGO, CNTs, graphene aerogels, carbon xerogel, and CDs exhibit various functional properties that can benefit the photocatalytic reactions. ,,,,,− Like GCN, GOs also serve as excellent substrates for the growth of ZnO and inhibit their growth during the crystallization step . The GO can trap the excited electrons from the CB of ZnO and GCN, thereby preventing electron–hole recombination.…”

“…The hydrothermal treatment and annealing steps are amended to improve the adhesion between the crystallized ZnO and GCN. ,− The particle sizes of ZnO were reported to be ∼44.2 and ∼6.2 nm in the pure form and in the composite structure, respectively, which suggests that GCN has an inhibition effect on the particle growth dynamics of ZnO . The GCN nanofilms were coated on the surface of porous ZnO-NSs via thermal decomposition of bulk GCN .…”

Review and Perspective on Rational Design and Interface Engineering of g-C₃N₄/ZnO: From Type-II to Step-Scheme Heterojunctions for Photocatalytic Applications

Efficient photodegradation of organic dyes from industrial wastewater using novel Ni-decorated g-C3N4-TiO2 photocatalysts

Photocatalytic oxidative degradation of methyl orange by a novel g-C3N4@ZnO based on graphene oxide composites with ternary heterojunction construction