Sulfonamides degradation assisted by UV, UV/H2O2 and UV/K2S2O8: Efficiency, mechanism and byproducts cytotoxicity

The objective of this study was to analyze the effectiveness of UVC, UVC/H2O2 and UVC/K2S2O8 on the degradation of SAs. Rate constant values increased in the order SMZ < SDZ < SML and showed the higher photodegradation of sulfonamides with a penta-heterocycle. Quantum yields were 1.72 × 10−5 mol E−1, 3.02 × 10−5 mol E−1, and 6.32 × 10−5 mol E−1 for SMZ, SDZ and SML, respectively, at 60 min of treatment. R254 values show that the dose habitually utilized for water disinfection is inadequate to remove this type of antibiotic. The initial sulfonamide concentration has a major impact on the degradation rate. The degradation rates were higher at pH 12 for SMZ and SML. SMZ and SML photodegradation kλ values are higher in tap versus distilled water. The presence of radical promoters generates a greater increase in the degradation rate, UVC/K2S2O8 cost less energy, a mechanism was proposed, and the degradation by-products are less toxic than the original product. © 2018 Elsevier Ltd

Cytotoxicity; Intermediates; Sulfonamides; Ultraviolet radiation distilled water; hydrogen peroxide; peroxydisulfate potassium; sulfadiazine; sulfadimidine; sulfamethizole; tap water; sulfonamide; antibiotics; byproduct; concentration (composition); disinfection; efficiency measurement; hydrogen peroxide; pH; photodegradation; toxicity; ultraviolet radiation; Article; binding affinity; cell viability; chemical composition; comparative study; concentration (parameters); controlled study; cytotoxicity; degradation kinetics; disinfection; electrophilicity; energy cost; environmental economics; environmental impact; HEK293 cell line; human; human cell; hydroxylation; pH; photodegradation; photolysis; photooxidation; phototoxicity; quantitative analysis; quantum yield; radiation dose; radical reaction; rate constant; ultraviolet C radiation; waste component removal; waste water management; chemistry; kinetics; oxidation reduction reaction; photolysis; ultraviolet radiation; water management; water pollutant; Hydrogen Peroxide; Kinetics; Oxidation-Reduction; Photolysis; Sulfonamides; Ultraviolet Rays; Water Pollutants, Chemical; Water Purification

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