Graphene-CdS nanocomposite inactivation performance toward Escherichia coli in the presence of humic acid under visible light irradiation

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Abstract

Graphene-CdS (G-CdS) nanocomposite was prepared successfully via a two-step solvothermal process, with CdS uniformly dispersed on the graphene nanosheets. The photocatalytic disinfection activity of G-CdS was evaluated, and the result shows that G-CdS exhibited higher inactivation efficiency toward the gram-negative bacterium, Escherichia coli, than pure CdS nanoparticles under visible light irradiation. Exposure to 10. mg of pure CdS resulted in a 1.1-log inactivation after 60. min, but resulted in 5.3-log reduction of viable bacteria when exposure to 10. mg G-CdS under the same illumination conditions. In addition, the impacts of humic acid (HA), a kind of natural organic matter (NOM), on its bactericidal properties have also been determined. G-CdS in the presence of HA (10. mg/L) significantly decreased its toxicity, causing less than 0.4-log inactivation after 60. min. Lipid peroxidation, intercellular ROS generation and antioxidant enzyme activities assays indicate that excess oxidative stress induced by G-CdS suppressed the antioxidant defense system, subsequently affected the normal function of lipid, protein and nucleic acid, and thus resulted in cell death. However, the decreased toxicity of G-CdS in the presence of HA may be attributed to that (1) HA presents a barrier to prevent the physical contact between bacteria cells and G-CdS, which was the first step of toxicity mechanisms; (2) HA acts as an antioxidant to react with any ROS and reduce the toxicity.

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Deng, C. H., Gong, J. L., Zeng, G. M., Jiang, Y., Zhang, C., Liu, H. Y., & Huan, S. Y. (2016). Graphene-CdS nanocomposite inactivation performance toward Escherichia coli in the presence of humic acid under visible light irradiation. Chemical Engineering Journal, 284, 41–53. https://doi.org/10.1016/j.cej.2015.08.106

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