Facile fabrication of a Z-scheme g-CN/Gd-MOF/silver nanocube composite as a new generation visible light active photocatalyst for abatement of persistent toxic pollutants

Some of the persistent hazardous contaminants that readily dissolve in water with a recognizable hue are hexavalent chromium and neomycin antibiotic. Herein, a Z-scheme g-C 3 N 5 /Gd-MOF/silver nanocube (CNGdAg) ternary composite was successfully designed by the combination of graphitic carbon nitri...

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Published in:Environmental science. Nano 2024-06, Vol.11 (6), p.2467-248
Main Authors: UshaVipinachandran, Varsha, Bhunia, Susanta Kumar
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Summary:Some of the persistent hazardous contaminants that readily dissolve in water with a recognizable hue are hexavalent chromium and neomycin antibiotic. Herein, a Z-scheme g-C 3 N 5 /Gd-MOF/silver nanocube (CNGdAg) ternary composite was successfully designed by the combination of graphitic carbon nitride (g-C 3 N 5 ), gadolinium-based molecular organic framework (Gd-MOF), and silver nanocubes (AgNCs). Under visible light irradiation, CNGdAg outperforms individual components and binary composites in the photoreduction of hexavalent chromium (Cr 6+ ) and removal of neomycin. The maximum photocatalytic efficiency of Cr 6+ (98%) in 150 minutes and complete neomycin removal in 25 minutes were accomplished by the CNGdAg-40% composite. A hydrothermal approach was chosen to prepare this visible light active composite. The formation of photogenerated electrons and superoxide radicals plays a major contributing factor in the efficient degradation in a short period without using any external components. The combined effect of the individual components in the composite led to the remarkable degradation via the Z-scheme pathway. This work exemplifies that the CNGdAg-40% photocatalyst can be used for the removal of heavy metal ions and organic contaminants from aquatic environments. A ternary composite by combining g-C 3 N 5 and Gd-MOF adorned with AgNCs has been fabricated for the efficient reduction of Cr 6+ and neomycin degradation.
ISSN:2051-8153
2051-8161
DOI:10.1039/d3en00913k