Complete Dechlorination of Endosulfan and Lindane Using Mg^sup 0^/Pd^sup +4^ Bimetallic System
A Mg^sup 0^/Pd^sup +4^ bimetallic system was evaluated to dechlorinate endosulfan and lindane in the aqueous phase. Studies were conducted with endosulfan and lindane separately, with or without acid in a 1:1 (v/v) water:acetone phase. In the absence of any acid, higher degradation of endosulfan and...
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| Veröffentlicht in: | Water environment research 2011-09, Vol.83 (9), p.865 |
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| creator | Aginhotri, Prakhar Mahidrakar, Amit B Gautam, Sumit Kumar |
| description | A Mg^sup 0^/Pd^sup +4^ bimetallic system was evaluated to dechlorinate endosulfan and lindane in the aqueous phase. Studies were conducted with endosulfan and lindane separately, with or without acid in a 1:1 (v/v) water:acetone phase. In the absence of any acid, higher degradation of endosulfan and lindane was observed using Mg^sup 0^/Pd^sup +4^ doses of 10/0.5 and 4/0.1 mg/mL, respectively. Acetone plays an important role in facilitating the dechlorination reaction by increasing the solubilities of pesticides. Dechlorination kinetics for endosulfan and lindane (30 and 50 mg/L [30 and 50 ppm] concentration of each pesticide) were conducted with varying Mg^sup 0^/Pd^sup +4^ doses, and the time-course profiles were well-fitted into exponential curves. The optimum observed rate constants (k^sub obs^') for endosulfan and lindane were obtained with Mg^sup 0^/Pd^sup +4^ doses of 5/0.5 and 4/0.1 mg/mL, respectively. Gas chromatography-mass spectrometry analyses revealed that endosulfan and lindane were dechlorinated completely into their hydrocarbon skeletons-Bicyclo [2,2,1] hepta 2-5 diene and benzene, respectively. [PUBLICATION ABSTRACT] |
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Studies were conducted with endosulfan and lindane separately, with or without acid in a 1:1 (v/v) water:acetone phase. In the absence of any acid, higher degradation of endosulfan and lindane was observed using Mg^sup 0^/Pd^sup +4^ doses of 10/0.5 and 4/0.1 mg/mL, respectively. Acetone plays an important role in facilitating the dechlorination reaction by increasing the solubilities of pesticides. Dechlorination kinetics for endosulfan and lindane (30 and 50 mg/L [30 and 50 ppm] concentration of each pesticide) were conducted with varying Mg^sup 0^/Pd^sup +4^ doses, and the time-course profiles were well-fitted into exponential curves. The optimum observed rate constants (k^sub obs^') for endosulfan and lindane were obtained with Mg^sup 0^/Pd^sup +4^ doses of 5/0.5 and 4/0.1 mg/mL, respectively. Gas chromatography-mass spectrometry analyses revealed that endosulfan and lindane were dechlorinated completely into their hydrocarbon skeletons-Bicyclo [2,2,1] hepta 2-5 diene and benzene, respectively. 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Studies were conducted with endosulfan and lindane separately, with or without acid in a 1:1 (v/v) water:acetone phase. In the absence of any acid, higher degradation of endosulfan and lindane was observed using Mg^sup 0^/Pd^sup +4^ doses of 10/0.5 and 4/0.1 mg/mL, respectively. Acetone plays an important role in facilitating the dechlorination reaction by increasing the solubilities of pesticides. Dechlorination kinetics for endosulfan and lindane (30 and 50 mg/L [30 and 50 ppm] concentration of each pesticide) were conducted with varying Mg^sup 0^/Pd^sup +4^ doses, and the time-course profiles were well-fitted into exponential curves. The optimum observed rate constants (k^sub obs^') for endosulfan and lindane were obtained with Mg^sup 0^/Pd^sup +4^ doses of 5/0.5 and 4/0.1 mg/mL, respectively. Gas chromatography-mass spectrometry analyses revealed that endosulfan and lindane were dechlorinated completely into their hydrocarbon skeletons-Bicyclo [2,2,1] hepta 2-5 diene and benzene, respectively. 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research</jtitle><date>2011-09-01</date><risdate>2011</risdate><volume>83</volume><issue>9</issue><spage>865</spage><pages>865-</pages><issn>1061-4303</issn><eissn>1554-7531</eissn><abstract>A Mg^sup 0^/Pd^sup +4^ bimetallic system was evaluated to dechlorinate endosulfan and lindane in the aqueous phase. Studies were conducted with endosulfan and lindane separately, with or without acid in a 1:1 (v/v) water:acetone phase. In the absence of any acid, higher degradation of endosulfan and lindane was observed using Mg^sup 0^/Pd^sup +4^ doses of 10/0.5 and 4/0.1 mg/mL, respectively. Acetone plays an important role in facilitating the dechlorination reaction by increasing the solubilities of pesticides. Dechlorination kinetics for endosulfan and lindane (30 and 50 mg/L [30 and 50 ppm] concentration of each pesticide) were conducted with varying Mg^sup 0^/Pd^sup +4^ doses, and the time-course profiles were well-fitted into exponential curves. The optimum observed rate constants (k^sub obs^') for endosulfan and lindane were obtained with Mg^sup 0^/Pd^sup +4^ doses of 5/0.5 and 4/0.1 mg/mL, respectively. Gas chromatography-mass spectrometry analyses revealed that endosulfan and lindane were dechlorinated completely into their hydrocarbon skeletons-Bicyclo [2,2,1] hepta 2-5 diene and benzene, respectively. [PUBLICATION ABSTRACT]</abstract><cop>Alexandria</cop><pub>Blackwell Publishing Ltd</pub></addata></record> |
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| subjects | Biodegradation Metals PCB Pesticides Polychlorinated biphenyls Public health Studies Wood preservatives |
| title | Complete Dechlorination of Endosulfan and Lindane Using Mg^sup 0^/Pd^sup +4^ Bimetallic System |
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