Amperometric sensor for glucose based on electrochemically polymerized tetraruthenated nickel-porphyrin

Glassy carbon and gold electrodes were modified with tetraruthenated Ni-porphyrin by electropolymerization in alkaline medium and characterized by cyclic voltammetry, UV–vis spectroscopy and MAC-mode scanning probe microscopy (SPM). The half-wave potentials and current intensities associated with th...

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Veröffentlicht in:	Analytica chimica acta 2005-05, Vol.539 (1), p.215-222
Hauptverfasser:	Quintino, Maria do Socorro Maia, Winnischofer, Herbert, Nakamura, Marcelo, Araki, Koiti, Toma, Henrique Eisi, Angnes, Lúcio
Format:	Artikel
Sprache:	eng
Schlagworte:	Amperometry Analytical chemistry Batch injection analysis Chemistry Cyclic voltammetry Electrocatalytic oxidation Electrochemical methods Exact sciences and technology General, instrumentation Glucose quantification Nickel-porphyrin Spectrometric and optical methods
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container_title	Analytica chimica acta
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creator	Quintino, Maria do Socorro Maia Winnischofer, Herbert Nakamura, Marcelo Araki, Koiti Toma, Henrique Eisi Angnes, Lúcio
description	Glassy carbon and gold electrodes were modified with tetraruthenated Ni-porphyrin by electropolymerization in alkaline medium and characterized by cyclic voltammetry, UV–vis spectroscopy and MAC-mode scanning probe microscopy (SPM). The half-wave potentials and current intensities associated with the Ni III/Ni II process were strongly pH-dependent. The modified electrodes were successfully employed as sensors for glucose in alkaline medium, based on the catalytic activity of the Ni III/Ni II centers. Glucose quantification was carried out by means of cyclic voltammetry or amperometry coupled to batch injection analysis (BIA). The BIA-amperometry technique revealed more efficiency than cyclic voltammetry, lowering the detection limit to 3.6 × 10 −7 mol L −1, and providing a larger, linear working range (2.5 × 10 −6 to 1.0 × 10 −3 mol L −1), better repeatability (RSD = 1.1% for 25 injections of 2.5 × 10 −5 mol L −1), and higher sampling frequency (60 samples h −1). The new sensor was successfully employed for the analysis of glucose in parentheral nutrition solutions and the results were in good agreement with the ones obtained by spectrophotometry, utilizing a modified Benedict's test.
doi_str_mv	10.1016/j.aca.2005.02.057
format	Article
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The half-wave potentials and current intensities associated with the Ni III/Ni II process were strongly pH-dependent. The modified electrodes were successfully employed as sensors for glucose in alkaline medium, based on the catalytic activity of the Ni III/Ni II centers. Glucose quantification was carried out by means of cyclic voltammetry or amperometry coupled to batch injection analysis (BIA). The BIA-amperometry technique revealed more efficiency than cyclic voltammetry, lowering the detection limit to 3.6 × 10 −7 mol L −1, and providing a larger, linear working range (2.5 × 10 −6 to 1.0 × 10 −3 mol L −1), better repeatability (RSD = 1.1% for 25 injections of 2.5 × 10 −5 mol L −1), and higher sampling frequency (60 samples h −1). 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The half-wave potentials and current intensities associated with the Ni III/Ni II process were strongly pH-dependent. The modified electrodes were successfully employed as sensors for glucose in alkaline medium, based on the catalytic activity of the Ni III/Ni II centers. Glucose quantification was carried out by means of cyclic voltammetry or amperometry coupled to batch injection analysis (BIA). The BIA-amperometry technique revealed more efficiency than cyclic voltammetry, lowering the detection limit to 3.6 × 10 −7 mol L −1, and providing a larger, linear working range (2.5 × 10 −6 to 1.0 × 10 −3 mol L −1), better repeatability (RSD = 1.1% for 25 injections of 2.5 × 10 −5 mol L −1), and higher sampling frequency (60 samples h −1). 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subjects	Amperometry Analytical chemistry Batch injection analysis Chemistry Cyclic voltammetry Electrocatalytic oxidation Electrochemical methods Exact sciences and technology General, instrumentation Glucose quantification Nickel-porphyrin Spectrometric and optical methods
title	Amperometric sensor for glucose based on electrochemically polymerized tetraruthenated nickel-porphyrin
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