Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano Graphene

<p>A novel and selective method for the fast determination of trace amounts of Zn(II)ions in water samples has been developed.  The first additional carbonyl and carboxyl functionalized-nano graphene (SPFNano graphene). The presence of additional carbonyl and carboxyl groups located at the edg...

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Main Author: A. Moghimi
Format: Article
Language:English
Published: Islamic Azad University 2013-01-01
Series:Journal of Chemical Health Risks
Subjects:
Online Access:http://jchr.org/index.php/JCHR/article/view/100
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spelling doaj-bdd9fcd9372745a39e9cb2e24ddfc1cc2020-11-24T23:14:23ZengIslamic Azad UniversityJournal of Chemical Health Risks2251-67192251-67272013-01-012459Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano GrapheneA. Moghimi<p>A novel and selective method for the fast determination of trace amounts of Zn(II)ions in water samples has been developed.  The first additional carbonyl and carboxyl functionalized-nano graphene (SPFNano graphene). The presence of additional carbonyl and carboxyl groups located at the edge of the sheets makes GO sheets strongly hydrophilic, allowing them to readily swell and disperse in water. Based on these oxygen functionalities, different model structures of GO were used as absorbent for extraction of Zn (II)   ions by solid phase extraction method. The complexes were eluted with HNO<sub>3</sub> (2M)10% V.V<sup>-1</sup> methanol in acetone and determined the analyte by flame atomic absorption spectrometry.  The procedure is based on the selective formation of Zn (II) at optimum pH by elution with organic eluents and determination by flame atomic absorption spectrometry. The method is based on complex formation on the surface of the ENVI-18 DISK<sup>TM</sup> disks modified carbonyl and carboxyl functionalized-nano graphene oxide molecules covalently bonded together followed by stripping of the retained species by minimum amounts of appropriate organic solvents. The elution is efficient and quantitative. The effect of potential interfering ions, pH, SPFNano graphene, amount, stripping solvent, and sample flow rate were also investigated. Under the optimal experimental conditions, the break-through volume was found to about 1000mL providing a preconcentration factor of 500. The maximum capacity of the disks was found to be 456± 3 µg for Zn<sup>2+</sup>.The limit of detection of the proposed method is 5ng per 1000mL.The method was applied to the extraction and recovery of Zn in different water samples.</p>http://jchr.org/index.php/JCHR/article/view/100Zn(II), SPE, Octadecyl slica disks, FAAS, carbonyl and carboxyl functionalized-nano grapheme (SPFNano graphene).
collection DOAJ
language English
format Article
sources DOAJ
author A. Moghimi
spellingShingle A. Moghimi
Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano Graphene
Journal of Chemical Health Risks
Zn(II), SPE, Octadecyl slica disks, FAAS, carbonyl and carboxyl functionalized-nano grapheme (SPFNano graphene).
author_facet A. Moghimi
author_sort A. Moghimi
title Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano Graphene
title_short Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano Graphene
title_full Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano Graphene
title_fullStr Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano Graphene
title_full_unstemmed Separation of Trace Amount Zn (II) Using Additional Carbonyl and Carboxyl Groups Functionalized-Nano Graphene
title_sort separation of trace amount zn (ii) using additional carbonyl and carboxyl groups functionalized-nano graphene
publisher Islamic Azad University
series Journal of Chemical Health Risks
issn 2251-6719
2251-6727
publishDate 2013-01-01
description <p>A novel and selective method for the fast determination of trace amounts of Zn(II)ions in water samples has been developed.  The first additional carbonyl and carboxyl functionalized-nano graphene (SPFNano graphene). The presence of additional carbonyl and carboxyl groups located at the edge of the sheets makes GO sheets strongly hydrophilic, allowing them to readily swell and disperse in water. Based on these oxygen functionalities, different model structures of GO were used as absorbent for extraction of Zn (II)   ions by solid phase extraction method. The complexes were eluted with HNO<sub>3</sub> (2M)10% V.V<sup>-1</sup> methanol in acetone and determined the analyte by flame atomic absorption spectrometry.  The procedure is based on the selective formation of Zn (II) at optimum pH by elution with organic eluents and determination by flame atomic absorption spectrometry. The method is based on complex formation on the surface of the ENVI-18 DISK<sup>TM</sup> disks modified carbonyl and carboxyl functionalized-nano graphene oxide molecules covalently bonded together followed by stripping of the retained species by minimum amounts of appropriate organic solvents. The elution is efficient and quantitative. The effect of potential interfering ions, pH, SPFNano graphene, amount, stripping solvent, and sample flow rate were also investigated. Under the optimal experimental conditions, the break-through volume was found to about 1000mL providing a preconcentration factor of 500. The maximum capacity of the disks was found to be 456± 3 µg for Zn<sup>2+</sup>.The limit of detection of the proposed method is 5ng per 1000mL.The method was applied to the extraction and recovery of Zn in different water samples.</p>
topic Zn(II), SPE, Octadecyl slica disks, FAAS, carbonyl and carboxyl functionalized-nano grapheme (SPFNano graphene).
url http://jchr.org/index.php/JCHR/article/view/100
work_keys_str_mv AT amoghimi separationoftraceamountzniiusingadditionalcarbonylandcarboxylgroupsfunctionalizednanographene
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