Enhanced Visible-Light-Driven Photodegradation of Rh-6G by Surface Engineered Pd-V2O5 Heterostructure Nanorods

Publication date: Available online 16 August 2018Source: Journal of Environmental Chemical EngineeringAuthor(s): Santhosh Kumar Jayaraj, Thangadurai ParamasivamAbstractDeveloping new photocatalysts for photodegradation of organic pollutants from the industries has become an important solution to water pollution. This work presents the improved photocatalytic performance of the surface engineered photocatalyst, Pd nanoparticles (NPs) decorated V2O5 heterostructure nanorods (Pd-V2O5), prepared by hydrothermal method. The Pd-V2O5 heterostructures contain orthorhombic structured V2O5 nanorods with their surface decorated with cubic structured Pd NPs. Small size of the Pd NPs (3.5 nm) has influenced and enhanced the visible light absorption through surface plasmon resonance. The number density of the Pd NPs on V2O5 surface was controlled by varying the Pd precursor concentration as 1, 3, 5, 8 and 10 wt% PdCl2 during synthesis, and the pure V2O5 was used as a control. Photocatalytic activity of Pd-V2O5 on Rhodamine-6 G (Rh-6 G) dye was investigated under visible light irradiation. Degradation performance of Pd-V2O5 has been significantly enhanced over pure V2O5, with 5%Pd-V2O5 showing the best degradation (98%) in 120 min. The highest degradation by 5%Pd-V2O5 is due to the largest BET surface area (19 m2/g), highest reaction rate constant (1.8544 h-1), improved visible light harvesting, highest charge career lifetime (35.64 ns) and optimum Pd content. The 5%Pd-V2O5 ...
Source: Journal of Environmental Chemical Engineering - Category: Chemistry Source Type: research