Chitosan-bound pyridinedicarboxylate Ni(II) and Fe(III) complex biopolymer films as waste water decyanidation agents

•Chitosan bound pyridinedicarboxylate Ni(II) and Fe(III) complex biopolymer films were formed.•Removal of toxic CN− was greatly achieved with moderate dose of the films.•The anionic complexing mechanism is based on the stabilization and geometric conformation of chitosan-metal complexes. Chitosan is...

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Bibliographic Details
Published in:Carbohydrate polymers 2016-10, Vol.151, p.1235-1239
Main Authors: Adewuyi, Sheriff, Jacob, Julianah Modupe, Olaleye, Oluwatoyin Omolola, Abdulraheem, Taofiq Olanrewaju, Tayo, Jubril Ayopo, Oladoyinbo, Fatai Oladipupo
Format: Article
Language:English
Subjects:
Biopolymer film and decyanidation
Carboxylic Acids - chemistry
Chitosan
Chitosan - chemistry
Cyanides - chemistry
Cyanides - isolation & purification
Iron - chemistry
iron(III)
Nickel - chemistry
nickel(II)
Organometallic Compounds - chemistry
Pyridinecarboxylate
Waste Water - chemistry
Water - chemistry
Water Pollutants, Chemical - chemistry
Water Pollutants, Chemical - isolation & purification
Water Purification - methods
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Summary:•Chitosan bound pyridinedicarboxylate Ni(II) and Fe(III) complex biopolymer films were formed.•Removal of toxic CN− was greatly achieved with moderate dose of the films.•The anionic complexing mechanism is based on the stabilization and geometric conformation of chitosan-metal complexes. Chitosan is a biopolymer with immense structural advantage for chemical and mechanical modifications to generate novel properties, functions and applications. This work depicts new pyridinedicarboxylicacid (PDC) crosslinked chitosan-metal ion films as veritable material for cyanide ion removal from aqueous solution. The PDC-crosslinked chitosan-metal films (PDC-Chit–Ni(II) and PDC-Chit–Fe(III)) were formed by complexing PDC-crosslinked chitosan film with anhydrous nickel(II) and iron(III) chloride salts respectively. The PDC-Chit and its metal films were characterized employing various analytical and spectroscopic techniques. The FT-IR, UV–vis and the XRD results confirm the presence of the metal ions in the metal coordinated PDC-crosslinked chitosan film. The surface morphological difference of PDC-Chit-Ni(II) film before and after decyanidation was explored with scanning electron microscopy. Furthermore, the quantitative amount of nickel(II) and iron(III) present in the complex were determined using Atomic Absorption Spectrophotometer as 32.3 and 37.2μg/g respectively which portends the biopolymer film as a good complexing agent. Removal of cyanide from aqueous solution with PDC-Chit, PDC-Chit–Ni(II) and PDC-Chit–Fe(III) films was studied with batch equilibrium experiments. At equilibrium, decyanidation capacity (DC) followed the order PDC-Chit-Ni (II)≈PDC-Chit-Fe(III)>PDC-Chit. PDC-Chit-Ni(II) film gave 100% CN− removal within 40min decyanidation owing to favorable coordination geometry.
ISSN:0144-8617
1879-1344
DOI:10.1016/j.carbpol.2016.06.070