Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan

Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan

A new magnetic functionalized derivative of chitosan is synthesized and characterized for the sorption of metal ions (environmental applications and metal valorization). The chemical modification of the glycine derivative of chitosan consists of: activation of the magnetic support with epichlorohydr...

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Main Authors: Mohammed F. Hamza, Mohsen M. Aly, Adel A.-H. Abdel-Rahman, Samar Ramadan, Heba Raslan, Shengye Wang, Thierry Vincent, Eric Guibal
Format: Article
Language:English
Published: MDPI AG 2017-05-01
Series:Materials
Subjects:
magnetic sorbent
chemical modification of chitosan
uranium
copper
zinc
sorption isotherms
uptake kinetics
metal desorption
sorbent recycling
physico-chemical characterization.
Online Access:http://www.mdpi.com/1996-1944/10/5/539
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spelling doaj-ade6e1afb5dd4eab958698f4bb80fa672020-11-24T23:05:06ZengMDPI AGMaterials1996-19442017-05-0110553910.3390/ma10050539ma10050539Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted ChitosanMohammed F. Hamza0Mohsen M. Aly1Adel A.-H. Abdel-Rahman2Samar Ramadan3Heba Raslan4Shengye Wang5Thierry Vincent6Eric Guibal7Nuclear Materials Authority, 530 El Maadi, Cairo, EgyptNuclear Materials Authority, 530 El Maadi, Cairo, EgyptFaculty of Nursing, Menoufia University, Al Minufya, 00123 Shebine El-Koam, EgyptFaculty of Nursing, Menoufia University, Al Minufya, 00123 Shebine El-Koam, EgyptFaculty of Nursing, Menoufia University, Al Minufya, 00123 Shebine El-Koam, EgyptEcole des Mines d’Alès, Centre des Matériaux des Mines d’Alès, 6 Avenue de Clavières, F-30319 Ales CEDEX, FranceEcole des Mines d’Alès, Centre des Matériaux des Mines d’Alès, 6 Avenue de Clavières, F-30319 Ales CEDEX, FranceEcole des Mines d’Alès, Centre des Matériaux des Mines d’Alès, 6 Avenue de Clavières, F-30319 Ales CEDEX, FranceA new magnetic functionalized derivative of chitosan is synthesized and characterized for the sorption of metal ions (environmental applications and metal valorization). The chemical modification of the glycine derivative of chitosan consists of: activation of the magnetic support with epichlorohydrin, followed by reaction with either glycine to produce the reference material (i.e., Gly sorbent) or glycine ester hydrochloride, followed by hydrazinolysis to synthesize the hydrazide functionalized sorbent (i.e., HGly sorbent). The materials are characterized by titration, elemental analysis, FTIR analysis (Fourrier-transform infrared spectrometry), TGA analysis (thermogravimetric analysis) and with SEM-EDX (scanning electron microscopy coupled to energy dispersive X-ray analysis). The sorption performances for U(VI), Cu(II), and Zn(II) are tested in batch systems. The sorption performances are compared for Gly and HGly taking into account the effect of pH, the uptake kinetics (fitted by the pseudo-second order rate equation), and the sorption isotherms (described by the Langmuir and the Sips equations). The sorption capacities of the modified sorbent reach up to 1.14 mmol U g−1, 1.69 mmol Cu g−1, and 0.85 mmol Zn g−1. In multi-metal solutions of equimolar concentration, the chemical modification changes the preferences for given metal ions. Metal ions are desorbed using 0.2 M HCl solutions and the sorbents are re-used for five cycles of sorption/desorption without significant loss in performances.http://www.mdpi.com/1996-1944/10/5/539magnetic sorbentchemical modification of chitosanuraniumcopperzincsorption isothermsuptake kineticsmetal desorptionsorbent recyclingphysico-chemical characterization.
collection DOAJ
language English
format Article
sources DOAJ
author Mohammed F. Hamza
Mohsen M. Aly
Adel A.-H. Abdel-Rahman
Samar Ramadan
Heba Raslan
Shengye Wang
Thierry Vincent
Eric Guibal
spellingShingle Mohammed F. Hamza
Mohsen M. Aly
Adel A.-H. Abdel-Rahman
Samar Ramadan
Heba Raslan
Shengye Wang
Thierry Vincent
Eric Guibal
Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan
Materials
magnetic sorbent
chemical modification of chitosan
uranium
copper
zinc
sorption isotherms
uptake kinetics
metal desorption
sorbent recycling
physico-chemical characterization.
author_facet Mohammed F. Hamza
Mohsen M. Aly
Adel A.-H. Abdel-Rahman
Samar Ramadan
Heba Raslan
Shengye Wang
Thierry Vincent
Eric Guibal
author_sort Mohammed F. Hamza
title Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan
title_short Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan
title_full Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan
title_fullStr Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan
title_full_unstemmed Functionalization of Magnetic Chitosan Particles for the Sorption of U(VI), Cu(II) and Zn(II)—Hydrazide Derivative of Glycine-Grafted Chitosan
title_sort functionalization of magnetic chitosan particles for the sorption of u(vi), cu(ii) and zn(ii)—hydrazide derivative of glycine-grafted chitosan
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2017-05-01
description A new magnetic functionalized derivative of chitosan is synthesized and characterized for the sorption of metal ions (environmental applications and metal valorization). The chemical modification of the glycine derivative of chitosan consists of: activation of the magnetic support with epichlorohydrin, followed by reaction with either glycine to produce the reference material (i.e., Gly sorbent) or glycine ester hydrochloride, followed by hydrazinolysis to synthesize the hydrazide functionalized sorbent (i.e., HGly sorbent). The materials are characterized by titration, elemental analysis, FTIR analysis (Fourrier-transform infrared spectrometry), TGA analysis (thermogravimetric analysis) and with SEM-EDX (scanning electron microscopy coupled to energy dispersive X-ray analysis). The sorption performances for U(VI), Cu(II), and Zn(II) are tested in batch systems. The sorption performances are compared for Gly and HGly taking into account the effect of pH, the uptake kinetics (fitted by the pseudo-second order rate equation), and the sorption isotherms (described by the Langmuir and the Sips equations). The sorption capacities of the modified sorbent reach up to 1.14 mmol U g−1, 1.69 mmol Cu g−1, and 0.85 mmol Zn g−1. In multi-metal solutions of equimolar concentration, the chemical modification changes the preferences for given metal ions. Metal ions are desorbed using 0.2 M HCl solutions and the sorbents are re-used for five cycles of sorption/desorption without significant loss in performances.
topic magnetic sorbent
chemical modification of chitosan
uranium
copper
zinc
sorption isotherms
uptake kinetics
metal desorption
sorbent recycling
physico-chemical characterization.
url http://www.mdpi.com/1996-1944/10/5/539
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