Extraction of Copper(II) Ions from Aqueous Solutions with a Methimazole-Based Ionic Liquid

The recently synthesized ionic liquid (IL) 2-butylthiolonium bis(trifluoromethanesulfonyl)amide, [mimSBu][NTf2], has been used for the extraction of copper(II) from aqueous solution. The pH of the aqueous phase decreases upon addition of [mimSBu]+, which is attributed to partial release of the hydro...

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Veröffentlicht in:	Analytical chemistry (Washington) 2010-09, Vol.82 (18), p.7691-7698
Hauptverfasser:	Reyna-González, Juan M, Torriero, Angel A. J, Siriwardana, Amal I, Burgar, Iko M, Bond, Alan M
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Sprache:	eng
Schlagworte:	Analytical chemistry Aqueous solutions Chemistry Copper Electrochemical methods Exact sciences and technology Extraction processes Ions Spectrometric and optical methods Spectrum analysis
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creator	Reyna-González, Juan M Torriero, Angel A. J Siriwardana, Amal I Burgar, Iko M Bond, Alan M
description	The recently synthesized ionic liquid (IL) 2-butylthiolonium bis(trifluoromethanesulfonyl)amide, [mimSBu][NTf2], has been used for the extraction of copper(II) from aqueous solution. The pH of the aqueous phase decreases upon addition of [mimSBu]+, which is attributed to partial release of the hydrogen attached to the N(3) nitrogen atom of the imidazolium ring. The presence of sparingly soluble water in [mimSBu][NTf2] also is required in solvent extraction studies to promote the incorporation of Cu(II) into the [mimSBu][NTf2] ionic liquid phase. The labile copper(II) system formed by interacting with both the water and the IL cation component has been characterized by cyclic voltammetry as well as UV−vis, Raman, and 1H, 13C, and 15N NMR spectroscopies. The extraction process does not require the addition of a complexing agent or pH control of the aqueous phase. [mimSBu][NTf2] can be recovered from the labile copper−water−IL interacting system by washing with a strong acid. High selectivity of copper(II) extraction is achieved relative to that of other divalent cobalt(II), iron(II), and nickel(II) transition-metal cations. The course of microextraction of Cu2+ from aqueous media into the [mimSBu][NTf2] IL phase was monitored in situ by cyclic voltammetry using a well-defined process in which specific interaction with copper is believed to switch from the ionic liquid cation component, [mimSBu], to the [NTf2] anion during the course of electrochemical reduction from Cu(II) to Cu(I). The microextraction−voltammetry technique provides a fast and convenient method to determine whether an IL is able to extract electroactive metal ions from an aqueous solution.
doi_str_mv	10.1021/ac101321a
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J ; Siriwardana, Amal I ; Burgar, Iko M ; Bond, Alan M</creator><creatorcontrib>Reyna-González, Juan M ; Torriero, Angel A. J ; Siriwardana, Amal I ; Burgar, Iko M ; Bond, Alan M</creatorcontrib><description>The recently synthesized ionic liquid (IL) 2-butylthiolonium bis(trifluoromethanesulfonyl)amide, [mimSBu][NTf2], has been used for the extraction of copper(II) from aqueous solution. The pH of the aqueous phase decreases upon addition of [mimSBu]+, which is attributed to partial release of the hydrogen attached to the N(3) nitrogen atom of the imidazolium ring. The presence of sparingly soluble water in [mimSBu][NTf2] also is required in solvent extraction studies to promote the incorporation of Cu(II) into the [mimSBu][NTf2] ionic liquid phase. The labile copper(II) system formed by interacting with both the water and the IL cation component has been characterized by cyclic voltammetry as well as UV−vis, Raman, and 1H, 13C, and 15N NMR spectroscopies. The extraction process does not require the addition of a complexing agent or pH control of the aqueous phase. [mimSBu][NTf2] can be recovered from the labile copper−water−IL interacting system by washing with a strong acid. High selectivity of copper(II) extraction is achieved relative to that of other divalent cobalt(II), iron(II), and nickel(II) transition-metal cations. The course of microextraction of Cu2+ from aqueous media into the [mimSBu][NTf2] IL phase was monitored in situ by cyclic voltammetry using a well-defined process in which specific interaction with copper is believed to switch from the ionic liquid cation component, [mimSBu], to the [NTf2] anion during the course of electrochemical reduction from Cu(II) to Cu(I). 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The labile copper(II) system formed by interacting with both the water and the IL cation component has been characterized by cyclic voltammetry as well as UV−vis, Raman, and 1H, 13C, and 15N NMR spectroscopies. The extraction process does not require the addition of a complexing agent or pH control of the aqueous phase. [mimSBu][NTf2] can be recovered from the labile copper−water−IL interacting system by washing with a strong acid. High selectivity of copper(II) extraction is achieved relative to that of other divalent cobalt(II), iron(II), and nickel(II) transition-metal cations. The course of microextraction of Cu2+ from aqueous media into the [mimSBu][NTf2] IL phase was monitored in situ by cyclic voltammetry using a well-defined process in which specific interaction with copper is believed to switch from the ionic liquid cation component, [mimSBu], to the [NTf2] anion during the course of electrochemical reduction from Cu(II) to Cu(I). The microextraction−voltammetry technique provides a fast and convenient method to determine whether an IL is able to extract electroactive metal ions from an aqueous solution.</description><subject>Analytical chemistry</subject><subject>Aqueous solutions</subject><subject>Chemistry</subject><subject>Copper</subject><subject>Electrochemical methods</subject><subject>Exact sciences and technology</subject><subject>Extraction processes</subject><subject>Ions</subject><subject>Spectrometric and optical methods</subject><subject>Spectrum analysis</subject><issn>0003-2700</issn><issn>1520-6882</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2010</creationdate><recordtype>article</recordtype><recordid>eNpl0MtKAzEUBuAgiq3VhS8gQRB1MXoymUnaZS1VCxUX6sbNcMwFp0wnNZnBy9ObYm1BySKbLyf_-Qk5ZHDBIGWXqBgwnjLcIl2Wp5CIfj_dJl0A4EkqATpkL4QZAItO7JJOCpL3YcC75Hn80XhUTelq6iwducXC-LPJ5JxOXB2o9W5Oh2-tcW2gD65qlzDQ97J5pUjvTPNazvHLVSa5wmD08lGp6LR8a0u9T3YsVsEcrO4eeboeP45uk-n9zWQ0nCbIJWsSC5pLBRY1R5kOLEoLyHMQOs1AMNTshaFhuUar7SDT0spMc5FrnolcyD7vkdOfuQvvYtLQFPMyKFNVWC9jFzLPmRxkIovy-I-cudbXMVxEEgTPOER0_oOUdyF4Y4uFj0v6z4JBsay7WNcd7dFqYPsyN3otf_uN4GQFMCisrMdalWHjeDwx2MahCptQ_z_8Bg54kWM</recordid><startdate>20100915</startdate><enddate>20100915</enddate><creator>Reyna-González, Juan M</creator><creator>Torriero, Angel A. 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The presence of sparingly soluble water in [mimSBu][NTf2] also is required in solvent extraction studies to promote the incorporation of Cu(II) into the [mimSBu][NTf2] ionic liquid phase. The labile copper(II) system formed by interacting with both the water and the IL cation component has been characterized by cyclic voltammetry as well as UV−vis, Raman, and 1H, 13C, and 15N NMR spectroscopies. The extraction process does not require the addition of a complexing agent or pH control of the aqueous phase. [mimSBu][NTf2] can be recovered from the labile copper−water−IL interacting system by washing with a strong acid. High selectivity of copper(II) extraction is achieved relative to that of other divalent cobalt(II), iron(II), and nickel(II) transition-metal cations. The course of microextraction of Cu2+ from aqueous media into the [mimSBu][NTf2] IL phase was monitored in situ by cyclic voltammetry using a well-defined process in which specific interaction with copper is believed to switch from the ionic liquid cation component, [mimSBu], to the [NTf2] anion during the course of electrochemical reduction from Cu(II) to Cu(I). The microextraction−voltammetry technique provides a fast and convenient method to determine whether an IL is able to extract electroactive metal ions from an aqueous solution.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><pmid>20738093</pmid><doi>10.1021/ac101321a</doi><tpages>8</tpages></addata></record>
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subjects	Analytical chemistry Aqueous solutions Chemistry Copper Electrochemical methods Exact sciences and technology Extraction processes Ions Spectrometric and optical methods Spectrum analysis
title	Extraction of Copper(II) Ions from Aqueous Solutions with a Methimazole-Based Ionic Liquid
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