Breaking barriers in passive sampling: the potential of PTFE membranes in the monitoring of hydrophilic micropollutants

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Ressource 1Download: Reymond et al. 2024 Breaking the barriers in passive sampling - the potential of PTFE membranes in the monitoring of hydrophilic micropollutants - JHM.pdf (674.58 [Ko])
State: Public
Version: Final published version
License: CC BY-NC-ND 4.0
Serval ID
serval:BIB_43860BEA1EDA
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Breaking barriers in passive sampling: the potential of PTFE membranes in the monitoring of hydrophilic micropollutants
Journal
Journal of Hazardous Materials
Author(s)
Reymond Naomi, Estoppey Nicolas, Weyermann Céline, Glanzmann Vick
ISSN
0304-3894
Publication state
Published
Issued date
06/2024
Peer-reviewed
Oui
Pages
134853
Language
english
Abstract
Passive samplers are key tools to sample hydrophilic micropollutants in water. Two main approaches address hydrodynamics’ influence: (1) determining site-specific sampling rate (RS) by characterizing kw, the mass transfer coefficient of the water-boundary layer (WBL), and (2) reducing WBL impact using a diffusive material to control the uptake. The first requires calibration data and the second has only been achieved using fragile diffusive material.
This study assesses the transfer of hydrophilic contaminants through polytetrafluoroethylene (PTFE; 30 μm thick), a new membrane material with lower sorption than commonly used polyethersulfone (PES). Combined for the first time in a Chemcatcher-like configuration, we calibrated the modified samplers for 44 micropollutants to provide RS – kw relationships for in-situ RS determination (approach 1). Micropollutants accumulated over 2000 times more on the sorbent than on PTFE. PTFE-based RS (0.027 to 0.300 L day-1) were 2.5 higher than previously reported with PES. Membrane property measurements (porosity, tortuosity) indicated that accumulation is primarily controlled by the membrane. Extrapolation
indicated that using thicker PTFE membranes (≥ 100 μm) would shift uptake control entirely to the membrane in river conditions (approach 2). This finding could enable RS prediction based on contaminants properties, thus representing a significant advancement in passive sampling.
Keywords
Calibration, hydrodynamics, environmental chemistry, water quality monitoring, membrane properties
Open Access
Yes
Create date
10/06/2024 12:14
Last modification date
18/06/2024 6:13
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