Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/2247
Title: Design of a nanostructured electromagnetic polyaniline–keggin Iron–Clay composite modified electrochemical sensor for the nanomolar detection of Ascorbic acid
Authors: Reena, V L
Sudha, J D
Rohini, K N
Neethu, K S
Keywords: clay; conducting polymers; electrochemistry; emulsion polymerization; magnetism and magnetic properties
Issue Date: 15-Dec-2014
Publisher: Wiley
Citation: Journal of Applied Polymer Science 131(24):App/40936,15-Dec,2014
Abstract: This article demonstrates the design and fabrication of an electrochemical sensor based on a platinum electrode for ascorbic acid (AA) modified by an electromagnetic polyaniline–Keggin iron–clay (PPICS) composite. The polyaniline–polyhydroxy iron– clay composite was prepared by the polymerization of [Anilinium]1[PDPSA]2 in the presence of Keggin iron intercalated clay and was characterized for its particle size, morphology, electrical conductivity, and saturation magnetization. The oxidation potential of AA was observed at 10.4 V on the bare electrode and shifted to a negative potential of 20.32 V on the modified electrode. Common possible interferences of the sample matrices were tested, and the results reveal that the PPICS-modified electrode exhibited a high selectivity and sensitivity toward AA. This unique low-cost and user-friendly sensor was validated for the nanomolar detection of AA present in real samples.
URI: http://hdl.handle.net/123456789/2247
Appears in Collections:2014

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