Fabrication of Ag/WO3/g-C3N4 composites for the photocatalytic degradation of harmful dyes.

In the present work, it is noticed that the synthesis of photocatalytic bare and composite materials: i) bare graphitic carbonitride g-C 3 N 4 (GCN), ii) modified with tungsten oxide WO 3 /g-C 3 N 4 (WGCN), and iii) with both tungsten oxide and silver nanoparticles WO 3 /Ag/g-C 3 N 4 (WAgGCN), by three different methods: calcination, precipitation, and ultrasonication. Also, their photocatalytic efficiencies were evaluated towards the photodegradation of different dyes under visible, UV, and sunlight irradiations with promising results. Here, the WAgGCN composite showed significant photocatalytic performance to decolorized Methylene Blue (98%) and Crystal Violet (95%), together with high chemical stability and excellent recyclability. The presence of Ag shows the influences of surface plasmon resonance and acts as an electron mediator in the formed heterostructures. The photogenerated holes performed vital roles in the catalytic degradation of dye solutions over the WAgGCN composite catalyst, confirmed by radical trapping experiments. Total Organic Carbon (TOC) and Chemical Oxygen Demand (COD) measurements confirmed the mineralization of the dyes. • Bare GCN, WGCN, and WAgGCN heterojunction photocatalysts were synthesized. • The WAgGCN composite photocatalyst demonstrated excellent photocatalytic efficiency. • Enhanced degradation and mineralization of MB and CV dyes were achieved. • Excellent stability and recyclability of WAgGCN photocatalyst were observed. [ABSTRACT FROM AUTHOR]