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Perfluoroalkane Sulfonamides and Derivatives, a Different Class of PFAS: Sorption and Microbial Biotransformation Insights

Donghui Ma, Christopher I. Olivares

2025Environmental Science & Technology29 citationsDOIOpen Access PDF

Abstract

s enable them to exist as neutral species or zwitterions, unlike all other PFAS subclasses, which are all anions. Sorption processes regulate the bioavailability of FASAs to microorganisms for transformation, driving the environmental transport and fate of FASAs. In this critical review, we provide a comprehensive overview of the classification, properties, and environmental fate of FASAs, with a focus on sorption and microbial transformation. We discuss recent advancements in understanding the sorption of FASAs onto soil, sediment, and microbial biomass, including key sorption descriptors and influencing factors. Additionally, we examine the microbial biotransformation of FASAs, detailing transformation pathways, key intermediates, transformation kinetics, and enzymes involved. Finally, we identify critical research gaps and propose future directions to advance the study of the sorption and biotransformation of FASAs in environmental systems. Mechanistic understanding of these processes is crucial for managing sites impacted with FASAs.

Topics & Concepts

BiotransformationSorptionEnvironmental chemistryChemistryClass (philosophy)Environmental scienceOrganic chemistryComputer scienceAdsorptionArtificial intelligenceEnzymePer- and polyfluoroalkyl substances researchToxic Organic Pollutants ImpactAir Quality and Health Impacts
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