| Literature DB >> 35617513 |
Marina G Evich1, Mary Davis1, Eric J Weber1, Caroline Tebes-Stevens1, Brad Acrey1, William Matthew Henderson1, Sandra Goodrow2, Erica Bergman3, John W Washington1.
Abstract
Although next-generation per- and polyfluorinated substances (PFAS) were designed and implemented as safer and environmentally degradable alternatives to "forever" legacy PFAS, there is little evidence to support the actual transformation of these compounds and less evidence of the safety of transformed products in the environment. Multiple congeners of one such PFAS alternative, the chloro-perfluoropolyether carboxylates (Cl-PFPECAs), have been found in New Jersey soils surrounding a manufacturing facility. These compounds are ideal candidates for investigating environmental transformation due to the existence of potential reaction centers including a chlorinated carbon and ether linkages. Transformation products of the chemical structures of this class of compounds were predicted based on analogous PFAS transformation pathways documented in peer-reviewed literature. Potential reaction products were used as the basis for high-resolution mass-spectrometric suspect screening of the soils. Suspected transformation products of multiple congeners, the Cl-PFPECAs, including H-PFPECAs, epox-PFPECAs, and diOH-PFPECAs, were tentatively observed in these screenings. Although ether linkages have been hypothesized as potential reaction centers under environmental conditions, to date, no documentation of ether scission has been identified. Despite exhaustive scrutiny of the high-resolution data for our Cl-PFPECA-laden soils, we found no evidence of ether scission.Entities:
Keywords: PFAS alternatives; environmental transformation; high-resolution mass spectrometry; next-generation chemicals; polyfluorinated alkyl substances
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Year: 2022 PMID: 35617513 PMCID: PMC9474707 DOI: 10.1021/acs.est.1c06126
Source DB: PubMed Journal: Environ Sci Technol ISSN: 0013-936X Impact factor: 11.357