Design and development of Co sub(3)O sub(4)/NiO composite nanofibers for the application of highly sensitive and selective non-enzymatic glucose sensors

Cobaltosic oxide/nickel oxide (Co sub(3)O sub(4)/NiO) composite nanofibers were synthesized viaan electrospinning technique and their electrocatalytic activities toward non-enzymatic glucose sensors were evaluated in detail. The Co sub(3)O sub(4)/NiO composite exhibited the homogeneously distributed...

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Veröffentlicht in:	RSC advances 2015-09, Vol.5 (93), p.76538-76547
Hauptverfasser:	Ramasamy, Ramachandran, Ramachandran, K, Philip, Geo George, Ramachandran, Rasu, Therese, Helen Annal, Gnana kumar, G
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Sprache:	eng
Schlagworte:	Anodizing Channels Cobalt oxides Durability Electrospinning Glucose Nanofibers Sensors
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creator	Ramasamy, Ramachandran Ramachandran, K Philip, Geo George Ramachandran, Rasu Therese, Helen Annal Gnana kumar, G
description	Cobaltosic oxide/nickel oxide (Co sub(3)O sub(4)/NiO) composite nanofibers were synthesized viaan electrospinning technique and their electrocatalytic activities toward non-enzymatic glucose sensors were evaluated in detail. The Co sub(3)O sub(4)/NiO composite exhibited the homogeneously distributed nanofibers with high porosity, effective inter connectivity and an extended number of conducting channels with an average diameter of 160 nm. The diffraction patterns depicted the face centred cubic crystalline structure of Co sub(3)O sub(4)/NiO nanofibers and the purity of the composite nanofibers was further ensured by using FT-IR and UV-vis spectroscopic analyses. The electrocatalytic performances of prepared nanofibers toward the oxidation of glucose was determined by cyclic voltammetry and amperometry techniques and the experimental results showed that the Co sub(3)O sub(4)/NiO composite nanofibers exhibited a maximum electrooxidation toward glucose, owing to the synergistic effect of Co sub(3)O sub(4) and NiO. The electrospun Co sub(3)O sub(4)/NiO nanofibers exhibited a detection limit of 0.17 mu M, a wide linear range of 1 mu M to 9.055 mM and a high sensitivity of 2477 mu A mM super(-1) cm super(-2). The nanofibers have also exhibited favorable properties such as good selectivity, reproducibility, durability and real sample analysis, which ensured its potential applications in the clinical diagnosis of diabetes.
doi_str_mv	10.1039/c5ra11739a
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The Co sub(3)O sub(4)/NiO composite exhibited the homogeneously distributed nanofibers with high porosity, effective inter connectivity and an extended number of conducting channels with an average diameter of 160 nm. The diffraction patterns depicted the face centred cubic crystalline structure of Co sub(3)O sub(4)/NiO nanofibers and the purity of the composite nanofibers was further ensured by using FT-IR and UV-vis spectroscopic analyses. The electrocatalytic performances of prepared nanofibers toward the oxidation of glucose was determined by cyclic voltammetry and amperometry techniques and the experimental results showed that the Co sub(3)O sub(4)/NiO composite nanofibers exhibited a maximum electrooxidation toward glucose, owing to the synergistic effect of Co sub(3)O sub(4) and NiO. The electrospun Co sub(3)O sub(4)/NiO nanofibers exhibited a detection limit of 0.17 mu M, a wide linear range of 1 mu M to 9.055 mM and a high sensitivity of 2477 mu A mM super(-1) cm super(-2). 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The Co sub(3)O sub(4)/NiO composite exhibited the homogeneously distributed nanofibers with high porosity, effective inter connectivity and an extended number of conducting channels with an average diameter of 160 nm. The diffraction patterns depicted the face centred cubic crystalline structure of Co sub(3)O sub(4)/NiO nanofibers and the purity of the composite nanofibers was further ensured by using FT-IR and UV-vis spectroscopic analyses. The electrocatalytic performances of prepared nanofibers toward the oxidation of glucose was determined by cyclic voltammetry and amperometry techniques and the experimental results showed that the Co sub(3)O sub(4)/NiO composite nanofibers exhibited a maximum electrooxidation toward glucose, owing to the synergistic effect of Co sub(3)O sub(4) and NiO. The electrospun Co sub(3)O sub(4)/NiO nanofibers exhibited a detection limit of 0.17 mu M, a wide linear range of 1 mu M to 9.055 mM and a high sensitivity of 2477 mu A mM super(-1) cm super(-2). 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source	Royal Society Of Chemistry Journals 2008-
subjects	Anodizing Channels Cobalt oxides Durability Electrospinning Glucose Nanofibers Sensors
title	Design and development of Co sub(3)O sub(4)/NiO composite nanofibers for the application of highly sensitive and selective non-enzymatic glucose sensors
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