Reduced and modified graphene oxide with Ag/V 2 O 5 as a ternary composite visible light photocatalyst against dyes and pesticides

Water pollution by dyes and pesticides poses significant threats to our ecosystem. In this research, a visible-light ternary composite photocatalytic system was fabricated using graphene oxide (GO) by reducing with N H , modifying with KOH, and decorating with Ag/V O . The fabricated photocatalysts were characterized through FTIR, SEM, XRD, BET, PL, EDX, ESR, UV-vis spectroscopy, TGA, ESI-MS, and Raman spectroscopy. The point zero charge of the reduced and modified GO (RMGO/Ag/V O ) was measured to be 6.7 by the pH drift method. This ternary composite was able to achieve complete removal of methyl orange (MO) and chlorpyrifos (CP) in solutions in 80 min under the optimum operation conditions (e.g., in terms of pollutant/catalyst concentrations, pH effects, and contact time). The role of active species responsible for photocatalytic activity was confirmed by scavenger analysis and ESR investigations. The potential mechanism for photocatalytic activity was investigated through a fragmentation process carried out by MS analysis. Nonlinear fitting of the experimental data revealed the best fit for MO and CP followed pseudo 1st-order kinetics with quantum yields of 1.07 × 10 and 2.16 × 10 molecules photon and space-time yields of 1.53 × 10 and 2.7 × 10 molecules photon mg , respectively. The structure of the nanomaterials remained mostly intact to support increased stability and reusability of the prepared photocatalysts even after 10 successive regeneration cycles.