Preconcentration and Determination of Trace Silver Ion Using Benzothiazole Calix[4]arene Modified Silica by Flow Injection Flame Atomic Absorption Spectrometry

The silica gel modified with benzothiazole calix[4]arene (APS-L1) via Schiff’s base reaction was applied as a sorbent in an online system for preconcentration and determination of silver ion by flame atomic absorption spectrometry (FAAS). APS-L1 was used as an effective sorbent for solid phase extra...

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Veröffentlicht in:	Analytical Sciences 2014/03/10, Vol.30(3), pp.389-395
Hauptverfasser:	WALUVANARUK, Jitwilai, AEUNGMAITREPIROM, Wanlapa, TUNTULANI, Thawatchai, NGAMUKOT, Passapol
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical Chemistry benzothiazole calixarene Benzothiazoles - chemistry Calixarenes - chemistry Chemistry Flow Injection Analysis Hydrogen-Ion Concentration Ions - analysis online preconcentration Phenols - chemistry Silica gel Silicon Dioxide - chemistry Silver - analysis silver(I) ion Solid Phase Extraction Spectrophotometry, Atomic
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creator	WALUVANARUK, Jitwilai AEUNGMAITREPIROM, Wanlapa TUNTULANI, Thawatchai NGAMUKOT, Passapol
description	The silica gel modified with benzothiazole calix[4]arene (APS-L1) via Schiff’s base reaction was applied as a sorbent in an online system for preconcentration and determination of silver ion by flame atomic absorption spectrometry (FAAS). APS-L1 was used as an effective sorbent for solid phase extraction (SPE) of silver(I) ion in both batch and column methods. The optimum experimental parameters such as pH, eluent type, sample flow rate, eluent volume and eluent flow rate including the effect of interfering ions were investigated. Silver(I) ion was determined at pH 6 – 7. The capacity of APS-L1 sorbent was found to be 12.2 mg/g of sorbent. The high affinity was obtained without interference from the interfering ions. The optimum conditions of the online flow injection preconcentration coupled with the FAAS (FI-FAAS system) were evaluated. The sample flow rate was 3.0 mL min−1 using sample volume of 5 – 10 mL. Elution was performed with 250 μL of 0.1 mol L−1 thiosulfate at the flow rate of 1.5 mL min−1. The analytical characteristics and performance of the FI-FAAS system were studied under optimum conditions using a solution spiked with standard silver(I) ion at 20 and 50 μg L−1. The detection limit of 0.44 μg L−1 was obtained. The accuracy of the proposed method was evaluated and percentages of recovery at 20 and 50 μg L−1 were 100.2 and 99.5%, respectively. The percent relative standard deviations (%RSD) at 20 and 50 μg L−1 were 6.1 and 3.3%, respectively. The developed method was successfully applied to determine trace silver(I) ion in drinking and tap water samples.
doi_str_mv	10.2116/analsci.30.389
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APS-L1 was used as an effective sorbent for solid phase extraction (SPE) of silver(I) ion in both batch and column methods. The optimum experimental parameters such as pH, eluent type, sample flow rate, eluent volume and eluent flow rate including the effect of interfering ions were investigated. Silver(I) ion was determined at pH 6 – 7. The capacity of APS-L1 sorbent was found to be 12.2 mg/g of sorbent. The high affinity was obtained without interference from the interfering ions. The optimum conditions of the online flow injection preconcentration coupled with the FAAS (FI-FAAS system) were evaluated. The sample flow rate was 3.0 mL min−1 using sample volume of 5 – 10 mL. Elution was performed with 250 μL of 0.1 mol L−1 thiosulfate at the flow rate of 1.5 mL min−1. The analytical characteristics and performance of the FI-FAAS system were studied under optimum conditions using a solution spiked with standard silver(I) ion at 20 and 50 μg L−1. The detection limit of 0.44 μg L−1 was obtained. The accuracy of the proposed method was evaluated and percentages of recovery at 20 and 50 μg L−1 were 100.2 and 99.5%, respectively. The percent relative standard deviations (%RSD) at 20 and 50 μg L−1 were 6.1 and 3.3%, respectively. 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SCI</addtitle><addtitle>Anal Sci</addtitle><description>The silica gel modified with benzothiazole calix[4]arene (APS-L1) via Schiff’s base reaction was applied as a sorbent in an online system for preconcentration and determination of silver ion by flame atomic absorption spectrometry (FAAS). APS-L1 was used as an effective sorbent for solid phase extraction (SPE) of silver(I) ion in both batch and column methods. The optimum experimental parameters such as pH, eluent type, sample flow rate, eluent volume and eluent flow rate including the effect of interfering ions were investigated. Silver(I) ion was determined at pH 6 – 7. The capacity of APS-L1 sorbent was found to be 12.2 mg/g of sorbent. The high affinity was obtained without interference from the interfering ions. The optimum conditions of the online flow injection preconcentration coupled with the FAAS (FI-FAAS system) were evaluated. The sample flow rate was 3.0 mL min−1 using sample volume of 5 – 10 mL. Elution was performed with 250 μL of 0.1 mol L−1 thiosulfate at the flow rate of 1.5 mL min−1. The analytical characteristics and performance of the FI-FAAS system were studied under optimum conditions using a solution spiked with standard silver(I) ion at 20 and 50 μg L−1. The detection limit of 0.44 μg L−1 was obtained. The accuracy of the proposed method was evaluated and percentages of recovery at 20 and 50 μg L−1 were 100.2 and 99.5%, respectively. The percent relative standard deviations (%RSD) at 20 and 50 μg L−1 were 6.1 and 3.3%, respectively. The developed method was successfully applied to determine trace silver(I) ion in drinking and tap water samples.</description><subject>Analytical Chemistry</subject><subject>benzothiazole calixarene</subject><subject>Benzothiazoles - chemistry</subject><subject>Calixarenes - chemistry</subject><subject>Chemistry</subject><subject>Flow Injection Analysis</subject><subject>Hydrogen-Ion Concentration</subject><subject>Ions - analysis</subject><subject>online preconcentration</subject><subject>Phenols - chemistry</subject><subject>Silica gel</subject><subject>Silicon Dioxide - chemistry</subject><subject>Silver - analysis</subject><subject>silver(I) ion</subject><subject>Solid Phase Extraction</subject><subject>Spectrophotometry, Atomic</subject><issn>0910-6340</issn><issn>1348-2246</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kU1vEzEYhC1ERUPhyhFZ4sJlU3_uxzEEApFaFantCaGV1_tu6mjXDrYDpH-Gv4rTDVFB4mRp5pmxXg1CryiZMkrzc2VVH7SZcjLlZfUETSgXZcaYyJ-iCakoyXIuyCl6HsKaEMpKxp6h02RTUXA5Qb8-e9DOarDRq2icxcq2-D1E8IOxo-I6fOOVBnxt-u_g8TJpt8HYFX4H9t7FO6PuXQ94rnrz84v4qjxYwJeuNZ2Bdp8yWuFmhxe9-4GXdg36oXfRqwHwLLrBaDxrgvObB_16kwDvBoh-9wKddOlCeHl4z9Dt4sPN_FN2cfVxOZ9dZDqXMma8YLTilWiJLjSorqpYlUtRlg3nTHe66xpocgqUgCy7UshC5aJtG11REK0q-Rl6O_ZuvPu2hRDrwQQNfa8suG2oqSR5UeUF5Ql98w-6dlu_3yFRlBVSFlQmajpS2rsQPHT1xptB-V1NSb2frj5MV3NSp-lS4PWhdtsM0B7xP1sl4HwEQrLsCvyjf_9XORsT6xDVCo6Vykeje_gLP2SOnr5TvgbLfwMWXMDv</recordid><startdate>2014</startdate><enddate>2014</enddate><creator>WALUVANARUK, Jitwilai</creator><creator>AEUNGMAITREPIROM, Wanlapa</creator><creator>TUNTULANI, Thawatchai</creator><creator>NGAMUKOT, Passapol</creator><general>The Japan Society for Analytical Chemistry</general><general>Springer Nature Singapore</general><general>Japan Science and Technology Agency</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QF</scope><scope>7QO</scope><scope>7QQ</scope><scope>7SE</scope><scope>7SR</scope><scope>7U5</scope><scope>8BQ</scope><scope>8FD</scope><scope>FR3</scope><scope>H8G</scope><scope>JG9</scope><scope>L7M</scope><scope>P64</scope><scope>7X8</scope></search><sort><creationdate>2014</creationdate><title>Preconcentration and Determination of Trace Silver Ion Using Benzothiazole Calix[4]arene Modified Silica by Flow Injection Flame Atomic Absorption Spectrometry</title><author>WALUVANARUK, Jitwilai ; AEUNGMAITREPIROM, Wanlapa ; TUNTULANI, Thawatchai ; NGAMUKOT, Passapol</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c655t-37219394d0c7ceaf992965488b332cfcffbeb61e10e58f8457a64ddbc91e4da83</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2014</creationdate><topic>Analytical Chemistry</topic><topic>benzothiazole calixarene</topic><topic>Benzothiazoles - chemistry</topic><topic>Calixarenes - chemistry</topic><topic>Chemistry</topic><topic>Flow Injection Analysis</topic><topic>Hydrogen-Ion Concentration</topic><topic>Ions - analysis</topic><topic>online preconcentration</topic><topic>Phenols - chemistry</topic><topic>Silica gel</topic><topic>Silicon Dioxide - chemistry</topic><topic>Silver - analysis</topic><topic>silver(I) ion</topic><topic>Solid Phase Extraction</topic><topic>Spectrophotometry, Atomic</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>WALUVANARUK, Jitwilai</creatorcontrib><creatorcontrib>AEUNGMAITREPIROM, Wanlapa</creatorcontrib><creatorcontrib>TUNTULANI, Thawatchai</creatorcontrib><creatorcontrib>NGAMUKOT, Passapol</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Aluminium Industry Abstracts</collection><collection>Biotechnology Research Abstracts</collection><collection>Ceramic Abstracts</collection><collection>Corrosion Abstracts</collection><collection>Engineered Materials Abstracts</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>Copper Technical Reference Library</collection><collection>Materials Research Database</collection><collection>Advanced Technologies Database with Aerospace</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>Analytical Sciences</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>WALUVANARUK, Jitwilai</au><au>AEUNGMAITREPIROM, Wanlapa</au><au>TUNTULANI, Thawatchai</au><au>NGAMUKOT, Passapol</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Preconcentration and Determination of Trace Silver Ion Using Benzothiazole Calix[4]arene Modified Silica by Flow Injection Flame Atomic Absorption Spectrometry</atitle><jtitle>Analytical Sciences</jtitle><stitle>ANAL. SCI</stitle><addtitle>Anal Sci</addtitle><date>2014</date><risdate>2014</risdate><volume>30</volume><issue>3</issue><spage>389</spage><epage>395</epage><pages>389-395</pages><issn>0910-6340</issn><eissn>1348-2246</eissn><abstract>The silica gel modified with benzothiazole calix[4]arene (APS-L1) via Schiff’s base reaction was applied as a sorbent in an online system for preconcentration and determination of silver ion by flame atomic absorption spectrometry (FAAS). APS-L1 was used as an effective sorbent for solid phase extraction (SPE) of silver(I) ion in both batch and column methods. The optimum experimental parameters such as pH, eluent type, sample flow rate, eluent volume and eluent flow rate including the effect of interfering ions were investigated. Silver(I) ion was determined at pH 6 – 7. The capacity of APS-L1 sorbent was found to be 12.2 mg/g of sorbent. The high affinity was obtained without interference from the interfering ions. The optimum conditions of the online flow injection preconcentration coupled with the FAAS (FI-FAAS system) were evaluated. The sample flow rate was 3.0 mL min−1 using sample volume of 5 – 10 mL. Elution was performed with 250 μL of 0.1 mol L−1 thiosulfate at the flow rate of 1.5 mL min−1. The analytical characteristics and performance of the FI-FAAS system were studied under optimum conditions using a solution spiked with standard silver(I) ion at 20 and 50 μg L−1. The detection limit of 0.44 μg L−1 was obtained. The accuracy of the proposed method was evaluated and percentages of recovery at 20 and 50 μg L−1 were 100.2 and 99.5%, respectively. The percent relative standard deviations (%RSD) at 20 and 50 μg L−1 were 6.1 and 3.3%, respectively. The developed method was successfully applied to determine trace silver(I) ion in drinking and tap water samples.</abstract><cop>Singapore</cop><pub>The Japan Society for Analytical Chemistry</pub><pmid>24614735</pmid><doi>10.2116/analsci.30.389</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analytical Chemistry benzothiazole calixarene Benzothiazoles - chemistry Calixarenes - chemistry Chemistry Flow Injection Analysis Hydrogen-Ion Concentration Ions - analysis online preconcentration Phenols - chemistry Silica gel Silicon Dioxide - chemistry Silver - analysis silver(I) ion Solid Phase Extraction Spectrophotometry, Atomic
title	Preconcentration and Determination of Trace Silver Ion Using Benzothiazole Calix[4]arene Modified Silica by Flow Injection Flame Atomic Absorption Spectrometry
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