A DFT based analysis of adsorption of Hg 2+ ion on chitosan monomer and its citralidene and salicylidene derivatives: Prior to the removal of Hg toxicity

A Density functional theory based study of adsorption of the toxic metal Hg (II) ion by chitosan monomer and two of its derivatives; citralidene and salicylidene chitosan, has been performed. The effect of structural features on the stability of studied complexes has been analyzed by using Gaussian0...

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Bibliographic Details
Published inInternational journal of biological macromolecules Vol. 99; pp. 549 - 554
Main Authors Hassan, Basila, Rajan, Vijisha K, Mujeeb, V M Abdul, K, Muraleedharan
Format Journal Article
LanguageEnglish
Published Netherlands 01.06.2017
Subjects
Adsorption
Benzylidene Compounds - chemistry
Carbohydrate Conformation
Chitosan - analogs & derivatives
Chitosan - chemistry
Mercury - chemistry
Mercury - isolation & purification
Mercury - toxicity
Models, Molecular
Quantum Theory
Water Pollutants, Chemical - chemistry
Water Pollutants, Chemical - isolation & purification
Water Pollutants, Chemical - toxicity
Adsorption of Hg (II)
DFT
Citralidene & salicylidene chitosan
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Summary:A Density functional theory based study of adsorption of the toxic metal Hg (II) ion by chitosan monomer and two of its derivatives; citralidene and salicylidene chitosan, has been performed. The effect of structural features on the stability of studied complexes has been analyzed by using Gaussian03 software package. All the possible conformations of these adsorbents were studied using the global minimum geometries. All the adsorbing sites were studied by placing the metal ion on the centroid of the atoms and the stable conformer of the adsorbent-metal ion complex was identified. Interaction between Hg (II) and the adsorbents is found to be electrostatic. Metal ion binding with nitrogen atom is stronger than that with oxygen atoms in all the cases as the charge density of nitrogen is enhanced on Schiff base formation. The advantage of derivatives over chitosan monomer is their stability in acidic media. ΔE value of the complexes are in the order SC-Hg (II)>chitosan-Hg (II)>CC-Hg (II) which indicates that the stability of complexes increases with increase in energy gap. The study reveals that aromatic Schiff base derivatives of chitosan is better for Hg(II) intake than aliphatic derivatives.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2017.03.032