The Adsorption of Perfluorooctane Sulfonate onto Sand, Clay, and Iron Oxide Surfaces

Fluorinated anionic surfactants have drawn considerable attention due to recent work showing significant concentrations in surface waters and biota from around the globe. A detailed understanding of the transport and fate of fluorinated surfactants through soil and like media must include an elucida...

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Published in	Journal of chemical and engineering data Vol. 52; no. 4; pp. 1165 - 1170
Main Authors	Johnson, Ramona L, Anschutz, Amy J, Smolen, Jean M, Simcik, Matt F, Penn, R. Lee
Format	Journal Article
Language	English
Published	Washington, DC American Chemical Society 01.07.2007
Subjects	Chemistry Exact sciences and technology General and physical chemistry Solid-liquid interface Surface physical chemistry Anionic surfactant Clay Liquid solid interface Iron oxide Sand Adsorption Coupled method Organic fluorine compounds HPLC chromatography Mass spectrometry Sulfonate
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Abstract	Fluorinated anionic surfactants have drawn considerable attention due to recent work showing significant concentrations in surface waters and biota from around the globe. A detailed understanding of the transport and fate of fluorinated surfactants through soil and like media must include an elucidation of mineral surface chemistry. Five materials were equilibrated with solutions of perfluorooctane sulfonate (PFOS) to characterize adsorption: kaolinite, Ottawa sand standard, synthetic goethite, Lake Michigan sediment, and iron-coated sand from Mappsville, VA. Aqueous and adsorbed PFOS was quantified with LC/MS (mass balance average: 101 ± 12 %, n = 37). The materials showed a near linear increase in adsorption as the equilibrium concentrations increased. Isotherms and calculated solid/solution distribution ratio experiments indicated that PFOS adsorption is significant but smaller than hydrocarbon analogues or organic compounds of similar molecular weight. Surface area normalized adsorption increased for the materials in the following order: goethite < kaolinite < high iron sand < Ottawa sand standard. Experimental results and comparisons to published data suggest that organic carbon may play an important role in sorption whereas electrostatic attraction may play a role when organic carbon is not present.
AbstractList	Fluorinated anionic surfactants have drawn considerable attention due to recent work showing significant concentrations in surface waters and biota from around the globe. A detailed understanding of the transport and fate of fluorinated surfactants through soil and like media must include an elucidation of mineral surface chemistry. Five materials were equilibrated with solutions of perfluorooctane sulfonate (PFOS) to characterize adsorption: kaolinite, Ottawa sand standard, synthetic goethite, Lake Michigan sediment, and iron-coated sand from Mappsville, VA. Aqueous and adsorbed PFOS was quantified with LC/MS (mass balance average: 101 ± 12 %, n = 37). The materials showed a near linear increase in adsorption as the equilibrium concentrations increased. Isotherms and calculated solid/solution distribution ratio experiments indicated that PFOS adsorption is significant but smaller than hydrocarbon analogues or organic compounds of similar molecular weight. Surface area normalized adsorption increased for the materials in the following order: goethite < kaolinite < high iron sand < Ottawa sand standard. Experimental results and comparisons to published data suggest that organic carbon may play an important role in sorption whereas electrostatic attraction may play a role when organic carbon is not present.
Author	Johnson, Ramona L Anschutz, Amy J Penn, R. Lee Smolen, Jean M Simcik, Matt F
Author_xml	– sequence: 1 givenname: Ramona L surname: Johnson fullname: Johnson, Ramona L – sequence: 2 givenname: Amy J surname: Anschutz fullname: Anschutz, Amy J – sequence: 3 givenname: Jean M surname: Smolen fullname: Smolen, Jean M – sequence: 4 givenname: Matt F surname: Simcik fullname: Simcik, Matt F – sequence: 5 givenname: R. Lee surname: Penn fullname: Penn, R. Lee
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Snippet	Fluorinated anionic surfactants have drawn considerable attention due to recent work showing significant concentrations in surface waters and biota from around...
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SubjectTerms	Chemistry Exact sciences and technology General and physical chemistry Solid-liquid interface Surface physical chemistry
Title	The Adsorption of Perfluorooctane Sulfonate onto Sand, Clay, and Iron Oxide Surfaces
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