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Advanced oxidation processes for pesticide degradation: a comprehensive review on the role of nano zero-valent metals and persulfate activation

Muhammad Aftab, Zia Ul Haq Khan, Noor S. Shah, Fida Ullah, Syed Khasim

2025RSC Advances13 citationsDOIOpen Access PDF

Abstract

-chlorophenol. The paper further examines the mechanisms underlying pollutant degradation, the effects of operational parameters such as pH, oxidant and catalyst dosage, and the synergistic role of composite systems like nZVI/BC and nZVZn/PMS. In addition, degradation pathways and mineralization efficiencies are discussed in detail, providing insight into the reaction kinetics and mechanistic transformations of target pollutants. This review not only summarizes the advantages of integrating persulfate-based AOPs with nZVM catalysts but also identifies key challenges such as catalyst recovery, secondary pollution, and scalability. Overall, the findings provide a framework for advancing sustainable, efficient, and eco-friendly AOP-based technologies for pesticide remediation.

Topics & Concepts

PersulfateChemistryPesticideCatalysisEnvironmental chemistryMineralization (soil science)PollutantNano-SulfatePesticide degradationRadicalZincCopperHeavy metalsDegradation (telecommunications)Advanced oxidation processAquatic ecosystemHeterogeneous catalysisNanomaterialsReactive oxygen speciesChemical engineeringAdvanced oxidation water treatmentEnvironmental remediation with nanomaterialsRadioactive element chemistry and processing
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