Construction of a S-scheme CdS/CuFe2O4 heterojunction with suppressed charge recombination for enhanced visible light-driven photocatalytic activity

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Abstract

Effective interfacial engineering to fabricate a suitable nano-photocatalyst for environmental remediation is on high demand. A magnetic nanocomposite is a potential candidate for reusability and recovery from treated wastewater. CuFe2O4/CdS nanoclusters (NCs) were fabricated using a chemical co-precipitation method. SEM and TEM images of the fabricated NCs revealed coral-like agglomerations and polycrystalline nature of NCs with clear lattice fringes. XPS and EDAX were performed for elemental analysis. The apparent photodegradation rate of dye by NCs is two-fold higher compared to that of pure CdS and CuFe2O4. The S-scheme interface retained both strong potential e−/h+ for ˙OH and ˙O2− production under visible light illumination. A 97.71% photocatalytic efficiency was retained after six cycles of reuse. This enhancement in the photocatalytic performance of NCs demonstrates their excellent potential to behave as environmental remediating agents.

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Akshhayya, C., Ansari, M. O., Janani, B., Subhiksha, V., Melaibari, A. A., Hasan, P. M. Z., … Sudheer Khan, S. (2023). Construction of a S-scheme CdS/CuFe2O4 heterojunction with suppressed charge recombination for enhanced visible light-driven photocatalytic activity. New Journal of Chemistry, 47(11), 5431–5440. https://doi.org/10.1039/d2nj05616j

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