Metal diffusion properties of a Nafion-coated porous membrane in an aquatic passive sampler system

Lena Björklund Blom; Gregory M. Morrison; Marta Segura Roux; Graham Mills; Richard Greenwood

doi:10.1039/b210905k

Metal diffusion properties of a Nafion-coated porous membrane in an aquatic passive sampler system

Lena Björklund Blom, Gregory M. Morrison, Marta Segura Roux, Graham Mills, Richard Greenwood

Research output: Contribution to journal › Article › peer-review

24 Citations (Scopus)

Abstract

A cellulose acetate membrane, positioned in a passive sampler system, was coated with the perfluorinated polymer Nafion. Aqueous metal transport through the membrane and the Nafion film was investigated. The Nafion-coated membrane prevents the transport of metals bound to natural organic material to the receiving phase in the passive sampler, while copper associated with small synthetic ligands pass through the Nafion film. Increasing thickness of the Nafion film decreases the metal uptake rate to the receiving phase in the passive sampler and increases the response time. A decreased response time for the passive sampler would provide a better estimation of rapid changes in concentration, particularly for dynamic aquatic systems such as urban runoff. Limited biofouling protection with the Nafion coating was demonstrated by growth inhibition of natural periphyton communities on glass surfaces.

Original language	English
Pages (from-to)	404-409
Number of pages	6
Journal	Journal of Environmental Monitoring
Volume	5
Issue number	3
DOIs	https://doi.org/10.1039/b210905k
Publication status	Published - Jun 2003
Externally published	Yes

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abstract = "A cellulose acetate membrane, positioned in a passive sampler system, was coated with the perfluorinated polymer Nafion. Aqueous metal transport through the membrane and the Nafion film was investigated. The Nafion-coated membrane prevents the transport of metals bound to natural organic material to the receiving phase in the passive sampler, while copper associated with small synthetic ligands pass through the Nafion film. Increasing thickness of the Nafion film decreases the metal uptake rate to the receiving phase in the passive sampler and increases the response time. A decreased response time for the passive sampler would provide a better estimation of rapid changes in concentration, particularly for dynamic aquatic systems such as urban runoff. Limited biofouling protection with the Nafion coating was demonstrated by growth inhibition of natural periphyton communities on glass surfaces.",

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AU - Roux, Marta Segura

AU - Mills, Graham

AU - Greenwood, Richard

PY - 2003/6

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AB - A cellulose acetate membrane, positioned in a passive sampler system, was coated with the perfluorinated polymer Nafion. Aqueous metal transport through the membrane and the Nafion film was investigated. The Nafion-coated membrane prevents the transport of metals bound to natural organic material to the receiving phase in the passive sampler, while copper associated with small synthetic ligands pass through the Nafion film. Increasing thickness of the Nafion film decreases the metal uptake rate to the receiving phase in the passive sampler and increases the response time. A decreased response time for the passive sampler would provide a better estimation of rapid changes in concentration, particularly for dynamic aquatic systems such as urban runoff. Limited biofouling protection with the Nafion coating was demonstrated by growth inhibition of natural periphyton communities on glass surfaces.

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Metal diffusion properties of a Nafion-coated porous membrane in an aquatic passive sampler system

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