PH-Dependent Partitioning of Ionizable Organic Chemicals Between the Silicone Polymer Polydimethylsiloxane (PDMS) and Water

Overview

Journal ACS Environ Au

Publisher American Chemical Society

Date 2023 Apr 27

PMID 37102138

Authors

Lili Niu

Luise Henneberger

Julia Huchthausen

Martin Krauss

Audrey Ogefere

Beate I Escher

Affiliations

Soon will be listed here.

Abstract

The silicone polymer polydimethysiloxane (PDMS) is a popular passive sampler for and sampling of hydrophobic organic chemicals. Despite its limited sorptive capacity for polar and ionizable organic chemicals (IOC), IOCs have been found in PDMS when extracting sediment and suspended particulate matter. The pH-dependent partitioning of 190 organics and IOCs covering a range of octanol-water partition constants log  from -0.3 to 7.7 was evaluated with a 10-day shaking method using mixtures composed of all chemicals at varying ratios of mass of PDMS to volume of water. This method reproduced the PDMS-water partition constant of neutral chemicals from the literature and extended the dataset by 93 neutral chemicals. The existing quantitative structure-activity relationship between the log  and could be extended with the measured linearly to a log  of -0.3. Fully charged organics were not taken up into PDMS. Thirty-eight monoprotic organic acids and 42 bases showed negligible uptake of the charged species, and the pH dependence of the apparent (pH) could be explained by the fraction of neutral species multiplied by the of the neutral species of these IOCs. Seventeen multiprotic chemicals with up to three acidity constants p also showed a pH dependence of (pH) with the tendency that the neutral and zwitterionic forms showed the highest (pH). (pH) of charged species of more hydrophobic multiprotic chemicals such as tetrabromobisphenol A and telmisartan was smaller but not negligible. Since these chemicals show high bioactivity, their contribution to mixture effects has to be considered when testing passive sampling extracts with bioassays. This work has further implications for understanding the role of microplastic as a vector for organic micropollutants.

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