Electrochemical Treatment of the Antibiotic Sulfachloropyridazine: Kinetics, Reaction Pathways, and Toxicity Evolution

Electrochemical Treatment of the Antibiotic Sulfachloropyridazine: Kinetics, Reaction Pathways, and Toxicity Evolution

The electro-Fenton treatment of sulfachloropyridazine (SCP), a model for sulfonamide antibiotics that are widespread in waters, was performed using cells with a carbon-felt cathode and Pt or boron-doped diamond (BDD) anode, aiming to present an integral assessment of the kinetics, electrodegradation...

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Bibliographic Details
Published in:Environmental science & technology Vol. 46; no. 7; pp. 4074 - 4082
Main Authors: Dirany, Ahmad, Sirés, Ignasi, Oturan, Nihal, Özcan, Ali, Oturan, Mehmet A
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 03-04-2012
Subjects:
Aliivibrio fischeri - drug effects
Aliivibrio fischeri - metabolism
Anti-Bacterial Agents - chemistry
Anti-Bacterial Agents - toxicity
Antibiotics
Applied sciences
Biodegradation
Biological and physicochemical phenomena
By products
Carbon - analysis
Chemical compounds
Earth sciences
Earth, ocean, space
Electricity
Electrochemical Techniques - methods
Electrodes
Engineering and environment geology. Geothermics
Exact sciences and technology
Hydrogen Peroxide - chemistry
Iron - chemistry
Kinetics
Luminescence
Minerals - chemistry
Natural water pollution
Organic Chemicals - analysis
Oxidation-Reduction - drug effects
Pollution
Pollution, environment geology
Solutions
Sulfachlorpyridazine - chemistry
Sulfachlorpyridazine - toxicity
Time Factors
Toxicity
Water treatment and pollution
Drug
Advanced oxidation processes
Emerging contaminant
Sulfonamide
Ecotoxicology
Toxicity
Chemical reaction kinetics
Aquatic environment
Antibiotic
Decontamination
Sulfonamides
Model compound
Reaction mechanism
Fenton reaction
Sulfachlorpyridazine
Antiinfectious
Physicochemical purification
Oxidation
Water pollution
Waste water purification
Electrochemical reaction
Organic compounds
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Summary:The electro-Fenton treatment of sulfachloropyridazine (SCP), a model for sulfonamide antibiotics that are widespread in waters, was performed using cells with a carbon-felt cathode and Pt or boron-doped diamond (BDD) anode, aiming to present an integral assessment of the kinetics, electrodegradation byproducts, and toxicity evolution. H2O2 electrogeneration in the presence of Fe2+ yielded •OH in the solution bulk, which acted concomitantly with •OH adsorbed at the anode (BDD(•OH)) to promote the oxidative degradation of SCP (k abs,SCP = (1.58 ± 0.02) × 109 M–1 s–1) and its byproducts. A detailed scheme for the complete mineralization was elucidated. On the basis of the action of •OH onto four different SCP sites, the pathways leading to total decontamination includes fifteen cyclic byproducts identified by HPLC and GC-MS, five aliphatic carboxylic acids, and a mixture of Cl–, SO4 2–, NH4 +, and NO3 – that accounted for 90–100% of initial Cl, S, and N. The time course of byproducts was satisfactorily correlated with the toxicity profiles determined from inhibition of Vibrio fischeri luminescence. 3-Amino-6-chloropyridazine and p-benzoquinone were responsible for the increased toxicity during the first stages. Independent electrolyses revealed that their toxicity trends were close to those of SCP. The formation of the carboxylic acids involved a sharp toxicity decrease, thus ensuring overall detoxification.
ISSN:0013-936X
1520-5851
DOI:10.1021/es204621q