Dithiocarbamate functionalized or surface sorbed Merrifield resin beads as column materials for on line flow injection–flame atomic absorption spectrometry determination of lead

This article describes the preparation of dithiocarbamate immobilized/functionalized and diethylammonium dithiocarbamate (DDTC) sorbed Merrifield Chloromethylated Resin (MCR) beads and comparison of these materials for on-line flow injection (FI)–flame atomic absorption spectrometry (FAAS) determina...

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Veröffentlicht in:	Analytica chimica acta 2007-09, Vol.600 (1), p.205-213
Hauptverfasser:	Praveen, R.S., Naidu, G.R.K., Prasada Rao, T.
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical chemistry Chemical immobilization Chemistry Dithiocarbamate Exact sciences and technology Flow injection-flame atomic absorption spectrometry Lead Spectrometric and optical methods Surface sorption Waters and soils
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description	This article describes the preparation of dithiocarbamate immobilized/functionalized and diethylammonium dithiocarbamate (DDTC) sorbed Merrifield Chloromethylated Resin (MCR) beads and comparison of these materials for on-line flow injection (FI)–flame atomic absorption spectrometry (FAAS) determination of lead. The above two materials enrich lead quantitatively over an identical optimal pH range (8.0–9.0), a preconcentration/loading time (up to 4 min) and elution with acidified methanol (a minimum of 0.01 mol L −1 HNO 3 in methanol). However, the detection limit for lead using dithiocarbamate functionalized MCR beads is 1.3 μg L −1 compared to 3 μg L −1 for DDTC sorbed MCR beads. Again, the sensitivity enhancement over direct FAAS signal is 48- and 27-fold, respectively. In addition, dithiocarbamate functionalized MCR beads offers better precision compared to DDTC sorbed MCR beads as the corresponding relative standard deviation (R.S.D.) values for five successive determinations of 0.20 μg mL −1 are 1.44 and 4.36%, respectively. The accuracy of the developed on-line FI–FAAS procedure employing dithiocarbamate functionalized MCR beads as column material was tested by analyzing Certified Reference Material (CRM) of soil (IAEA soil-7) and marine sediment reference material (MESS-3) supplied by International Atomic Energy Agency (IAEA), Vienna and National Research Council (NRC), Canada, respectively. Furthermore, the developed procedure has been successfully tested for the analysis of surface, pond, ground and effluent water and soil samples collected from the vicinity of lead acid battery industry in India.
doi_str_mv	10.1016/j.aca.2007.01.012
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The above two materials enrich lead quantitatively over an identical optimal pH range (8.0–9.0), a preconcentration/loading time (up to 4 min) and elution with acidified methanol (a minimum of 0.01 mol L −1 HNO 3 in methanol). However, the detection limit for lead using dithiocarbamate functionalized MCR beads is 1.3 μg L −1 compared to 3 μg L −1 for DDTC sorbed MCR beads. Again, the sensitivity enhancement over direct FAAS signal is 48- and 27-fold, respectively. In addition, dithiocarbamate functionalized MCR beads offers better precision compared to DDTC sorbed MCR beads as the corresponding relative standard deviation (R.S.D.) values for five successive determinations of 0.20 μg mL −1 are 1.44 and 4.36%, respectively. The accuracy of the developed on-line FI–FAAS procedure employing dithiocarbamate functionalized MCR beads as column material was tested by analyzing Certified Reference Material (CRM) of soil (IAEA soil-7) and marine sediment reference material (MESS-3) supplied by International Atomic Energy Agency (IAEA), Vienna and National Research Council (NRC), Canada, respectively. 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The above two materials enrich lead quantitatively over an identical optimal pH range (8.0–9.0), a preconcentration/loading time (up to 4 min) and elution with acidified methanol (a minimum of 0.01 mol L −1 HNO 3 in methanol). However, the detection limit for lead using dithiocarbamate functionalized MCR beads is 1.3 μg L −1 compared to 3 μg L −1 for DDTC sorbed MCR beads. Again, the sensitivity enhancement over direct FAAS signal is 48- and 27-fold, respectively. In addition, dithiocarbamate functionalized MCR beads offers better precision compared to DDTC sorbed MCR beads as the corresponding relative standard deviation (R.S.D.) values for five successive determinations of 0.20 μg mL −1 are 1.44 and 4.36%, respectively. The accuracy of the developed on-line FI–FAAS procedure employing dithiocarbamate functionalized MCR beads as column material was tested by analyzing Certified Reference Material (CRM) of soil (IAEA soil-7) and marine sediment reference material (MESS-3) supplied by International Atomic Energy Agency (IAEA), Vienna and National Research Council (NRC), Canada, respectively. 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The above two materials enrich lead quantitatively over an identical optimal pH range (8.0–9.0), a preconcentration/loading time (up to 4 min) and elution with acidified methanol (a minimum of 0.01 mol L −1 HNO 3 in methanol). However, the detection limit for lead using dithiocarbamate functionalized MCR beads is 1.3 μg L −1 compared to 3 μg L −1 for DDTC sorbed MCR beads. Again, the sensitivity enhancement over direct FAAS signal is 48- and 27-fold, respectively. In addition, dithiocarbamate functionalized MCR beads offers better precision compared to DDTC sorbed MCR beads as the corresponding relative standard deviation (R.S.D.) values for five successive determinations of 0.20 μg mL −1 are 1.44 and 4.36%, respectively. 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subjects	Analytical chemistry Chemical immobilization Chemistry Dithiocarbamate Exact sciences and technology Flow injection-flame atomic absorption spectrometry Lead Spectrometric and optical methods Surface sorption Waters and soils
title	Dithiocarbamate functionalized or surface sorbed Merrifield resin beads as column materials for on line flow injection–flame atomic absorption spectrometry determination of lead
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