Efficient decomposition of a new fluorochemical surfactant: Perfluoroalkane disulfonate to fluoride ions in subcritical and supercritical water

Decomposition of –O3SC3F6SO3− in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3−. This is the first report on the decomposition of perfluoroalkane disulfonates, which are being introduced in electronics industry as greener alternative...

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Published in	Chemosphere (Oxford) Vol. 129; pp. 27 - 32
Main Authors	Hori, Hisao, Saito, Hiroki, Sakai, Hidenori, Kitahara, Toshiyuki, Sakamoto, Takehiko
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.06.2015
Subjects	Alternative Bioaccumulation Decomposition Electronics Elevated Fluorides - chemistry Fluorine Fluorocarbons - chemistry Iron Iron - chemistry Oxidation-Reduction Perfluoroalkane Reducing agents Solutions Surface-Active Agents - chemistry Surfactant Surfactants Temperature Waste Water - chemistry Water Purification - methods Iron Alternative Surfactant Fluorine
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Abstract	Decomposition of –O3SC3F6SO3− in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3−. This is the first report on the decomposition of perfluoroalkane disulfonates, which are being introduced in electronics industry as greener alternatives to environmentally persistent and bioaccumulative perfluoroalkyl surfactants. Addition of zerovalent iron to the reaction system dramatically increased the yield of F− in the reaction solution: when the reaction of –O3SC3F6SO3− was carried out in subcritical water at 350°C for 6h, the F− yield was 70%, which was 23times the yield without zerovalent iron. Prolonged reaction increased the F− formation: after 18h, the F− yield from the reaction of –O3SC3F6SO3− reached 81%, which was 2.1times the F− yield from the reaction of C3F7SO3−. Although the reactivity of FeO toward these substrates was lower than zerovalent iron in subcritical water, the reactivity was enhanced when the reaction temperature was elevated to supercritical state, at which temperature FeO underwent in situ disproportionation to form zerovalent iron, which acted as the reducing agent. When the reaction of –O3SC3F6SO3− was carried out in the presence of FeO in supercritical water at 380°C for 18h, the F− yield reached 92%, which was the highest yield among tested.
AbstractList	Decomposition of (-)O3SC3F6SO3(-) in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3(-). This is the first report on the decomposition of perfluoroalkane disulfonates, which are being introduced in electronics industry as greener alternatives to environmentally persistent and bioaccumulative perfluoroalkyl surfactants. Addition of zerovalent iron to the reaction system dramatically increased the yield of F(-) in the reaction solution: when the reaction of (-)O3SC3F6SO3(-) was carried out in subcritical water at 350°C for 6h, the F(-) yield was 70%, which was 23times the yield without zerovalent iron. Prolonged reaction increased the F(-) formation: after 18h, the F(-) yield from the reaction of (-)O3SC3F6SO3(-) reached 81%, which was 2.1times the F(-) yield from the reaction of C3F7SO3(-). Although the reactivity of FeO toward these substrates was lower than zerovalent iron in subcritical water, the reactivity was enhanced when the reaction temperature was elevated to supercritical state, at which temperature FeO underwent in situ disproportionation to form zerovalent iron, which acted as the reducing agent. When the reaction of (-)O3SC3F6SO3(-) was carried out in the presence of FeO in supercritical water at 380°C for 18h, the F(-) yield reached 92%, which was the highest yield among tested. Decomposition of -O3SC3F6SO3 - in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3 -. This is the first report on the decomposition of perfluoroalkane disulfonates, which are being introduced in electronics industry as greener alternatives to environmentally persistent and bioaccumulative perfluoroalkyl surfactants. Addition of zerovalent iron to the reaction system dramatically increased the yield of F- in the reaction solution: when the reaction of -O3SC3F6SO3 - was carried out in subcritical water at 350 degree C for 6h, the F- yield was 70%, which was 23times the yield without zerovalent iron. Prolonged reaction increased the F- formation: after 18h, the F- yield from the reaction of -O3SC3F6SO3 - reached 81%, which was 2.1times the F- yield from the reaction of C3F7SO3 -. Although the reactivity of FeO toward these substrates was lower than zerovalent iron in subcritical water, the reactivity was enhanced when the reaction temperature was elevated to supercritical state, at which temperature FeO underwent in situ disproportionation to form zerovalent iron, which acted as the reducing agent. When the reaction of -O3SC3F6SO3 - was carried out in the presence of FeO in supercritical water at 380 degree C for 18h, the F- yield reached 92%, which was the highest yield among tested. Decomposition of –O3SC3F6SO3− in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3−. This is the first report on the decomposition of perfluoroalkane disulfonates, which are being introduced in electronics industry as greener alternatives to environmentally persistent and bioaccumulative perfluoroalkyl surfactants. Addition of zerovalent iron to the reaction system dramatically increased the yield of F− in the reaction solution: when the reaction of –O3SC3F6SO3− was carried out in subcritical water at 350°C for 6h, the F− yield was 70%, which was 23times the yield without zerovalent iron. Prolonged reaction increased the F− formation: after 18h, the F− yield from the reaction of –O3SC3F6SO3− reached 81%, which was 2.1times the F− yield from the reaction of C3F7SO3−. Although the reactivity of FeO toward these substrates was lower than zerovalent iron in subcritical water, the reactivity was enhanced when the reaction temperature was elevated to supercritical state, at which temperature FeO underwent in situ disproportionation to form zerovalent iron, which acted as the reducing agent. When the reaction of –O3SC3F6SO3− was carried out in the presence of FeO in supercritical water at 380°C for 18h, the F− yield reached 92%, which was the highest yield among tested.
Author	Hori, Hisao Saito, Hiroki Sakai, Hidenori Kitahara, Toshiyuki Sakamoto, Takehiko
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Snippet	Decomposition of –O3SC3F6SO3− in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3−. This is the... Decomposition of (-)O3SC3F6SO3(-) in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3(-). This... Decomposition of -O3SC3F6SO3 - in subcritical and supercritical water was investigated, and the results were compared with the results for C3F7SO3 -. This is...
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SubjectTerms	Alternative Bioaccumulation Decomposition Electronics Elevated Fluorides - chemistry Fluorine Fluorocarbons - chemistry Iron Iron - chemistry Oxidation-Reduction Perfluoroalkane Reducing agents Solutions Surface-Active Agents - chemistry Surfactant Surfactants Temperature Waste Water - chemistry Water Purification - methods
Title	Efficient decomposition of a new fluorochemical surfactant: Perfluoroalkane disulfonate to fluoride ions in subcritical and supercritical water
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