Comparative evaluation of persulfate and peroxy monosulfate-based advanced oxidation processes for amoxicillin degradation: mechanisms, efficiency, and challenges
Harez R. Ahmed, Anu Mary Ealias

TL;DR
This paper compares persulfate and peroxymonosulfate-based oxidation methods for breaking down amoxicillin in water, highlighting their efficiency and challenges.
Contribution
The study provides a comparative evaluation of PS and PMS-based AOPs for amoxicillin degradation, emphasizing mechanisms and environmental implications.
Findings
SR-AOPs are effective for degrading amoxicillin due to sulfate radicals' longer lifetimes and broader pH applicability.
Activation strategies like UV and transition-metal catalysis show varying efficiency and selectivity for amoxicillin degradation.
Challenges include catalyst instability, metal leaching, and the toxicity of byproducts.
Abstract
The widespread occurrence of antibiotics in aquatic environments has raised serious concerns due to their persistence, toxicity, and contribution to the proliferation of antibiotic-resistant bacteria. Amoxicillin, one of the most frequently prescribed β-lactam antibiotics, is frequently detected in surface water, groundwater, and wastewater effluents due to its low biodegradability and incomplete removal by conventional treatment technologies. In this context, sulfate radical-based advanced oxidation processes (SR-AOPs) have emerged as highly effective alternatives for degrading antibiotics. This review critically evaluates activation-based AOPs using persulfate (PS) and peroxymonosulfate (PMS) for the degradation of amoxicillin, with emphasis on oxidant chemistry, radical generation mechanisms, redox properties, stability, and reaction kinetics. Various activation strategies, including…
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Taxonomy
TopicsAdvanced oxidation water treatment · Pesticide and Herbicide Environmental Studies · Pharmaceutical and Antibiotic Environmental Impacts
