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Article Abstract
The temperature-dependent air-water partitioning behavior of a novel class of perfluoroalkyl and polyfluoroalkyl substances (PFAS) was assessed both experimentally and via prediction. These PFAS contain ether or thioether linkages and are transformation products of an alternative PFAS surfactant. A modified version of the static headspace method with variable headspace/solution ratios was used to determine the dimensionless air/water partition coefficients () over a wide range of temperatures (25-80 °C). The samples were analyzed through the aqueous phase instead of the headspace because of their relatively low volatility. The obtained log values of the tested chemicals ranged from -2.6 to -1.0 at 25 °C. No differences in were observed between ether and thioether congeners with the same perfluorinated carbon chain length. Increasing the length of the perfluorinated carbon chain from CF- to CF- increased by about 1.5 log units. The obtained of a well-studied fluorotelomer alcohol, 4:2 FTOH, matched those of previous studies, indicating the appropriateness of the method used. The temperature dependence of , as quantified by the molar internal energy change of air-water partitioning, Δ, ranged from 20 to 37 kJ/mol and was not substantially influenced by the structure of the chemicals. Among five tools to predict air-water partitioning, the quantum chemistry-based COSMO ensured the most reliable and accurate prediction as compared to the experimental results.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12355946 | PMC |
| http://dx.doi.org/10.1021/acs.est.4c11447 | DOI Listing |
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