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Facile construction of efficient WO3/V2O5 coupled g-C3N4 ternary composite photocatalyst for environmental emergent aqueous pollutant degradation: Stability, degradation reaction pathway and effect of pH evaluation

Currently, one of the primary challenges that human society must overcome is the task of decreasing the amount of energy used and the adverse effects that it has on the environment. The daily increase in liquid waste (comprising organic pollutants) is a direct result of the creation and expansion of...

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Published in:Environmental geochemistry and health 2024-10, Vol.46 (10), p.376, Article 376
Main Authors: Shanthini, K., Manivannan, V., Govindan, R., Praburaman, Loganathan, Al-Humaid, Latifah A., Oh, Tae Hwan, Vignesh, Shanmugam
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container_issue 10
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container_title Environmental geochemistry and health
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creator Shanthini, K.
Manivannan, V.
Govindan, R.
Praburaman, Loganathan
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Vignesh, Shanmugam
description Currently, one of the primary challenges that human society must overcome is the task of decreasing the amount of energy used and the adverse effects that it has on the environment. The daily increase in liquid waste (comprising organic pollutants) is a direct result of the creation and expansion of new companies, causing significant environmental disruption. Water contamination is attributed to several industries such as textile, chemical, poultry, dairy, and pharmaceutical. In this study, we present the successful degradation of methylene blue dye using g-C 3 N 4 (GCN) mixed with WO 3 and V 2 O 5 composites (GCN/WO 3 /V 2 O 5 ternary composite) as a photocatalyst, prepared by a simple mechanochemistry method. The GCN/WO 3 /V 2 O 5 ternary composite revealed a notable enhancement in photocatalytic performance, achieving around 97% degradation of aqueous methylene blue (MB). This performance surpasses that of the individual photocatalysts, namely pure GCN, GCN/WO 3 , and GCN/V 2 O 5 composites. Furthermore, the GCN/WO 3 /V 2 O 5 ternary composite exhibited exceptional stability even after undergoing five consecutive cycles. The exceptional photocatalytic activity of the GCN/WO 3 /V 2 O 5 ternary composite can be ascribed to the synergistic effect of metal-free GCN and metal oxides, resulting in the alteration of the band gap and suppression of charge recombination in the ternary photocatalyst. This study offers a better platform for understanding the characteristics of materials and their photocatalytic performance under visible light conditions.
doi_str_mv 10.1007/s10653-024-02152-7
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ispartof Environmental geochemistry and health, 2024-10, Vol.46 (10), p.376, Article 376
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subjects Biodegradation
Carbon nitride
Catalytic activity
Charge materials
Composite materials
Degradation
Dyes
Earth and Environmental Science
Environment
Environmental Chemistry
Environmental degradation
Environmental Health
Geochemistry
Liquid wastes
Metal oxides
Methylene blue
Original Paper
Performance degradation
Photocatalysis
Photocatalysts
Photodegradation
Pollutants
Public Health
Recombination
Soil Science & Conservation
Stability
Synergistic effect
Terrestrial Pollution
Tungsten oxides
Vanadium pentoxide
Water pollution
title Facile construction of efficient WO3/V2O5 coupled g-C3N4 ternary composite photocatalyst for environmental emergent aqueous pollutant degradation: Stability, degradation reaction pathway and effect of pH evaluation
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