Direct electrochemistry of glucose oxidase immobilized on ZrO sub(2) nanoparticles-decorated reduced graphene oxide sheets for a glucose biosensor

We fabricated a glucose biosensor based on glucose oxidase (GOx) immobilized in a poly(l-lysine) (PLL) and reduced graphene oxide-zirconium oxide composite (RGO-ZrO sub(2)). First, a simple single step electrochemical approach was used to prepare the RGO-ZrO sub(2) composite and its successful forma...

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Veröffentlicht in:	RSC advances 2014-07, Vol.4 (57), p.30358-30367
Hauptverfasser:	Vilian, ATEzhil, Chen, Shen-Ming, Ali, MAjmal, Al-Hemaid, Fahad MA
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Sprache:	eng
Schlagworte:	Biosensors Electrochemistry Electrodes Glucose Graphene Mathematical analysis Oxides Sensors
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creator	Vilian, ATEzhil Chen, Shen-Ming Ali, MAjmal Al-Hemaid, Fahad MA
description	We fabricated a glucose biosensor based on glucose oxidase (GOx) immobilized in a poly(l-lysine) (PLL) and reduced graphene oxide-zirconium oxide composite (RGO-ZrO sub(2)). First, a simple single step electrochemical approach was used to prepare the RGO-ZrO sub(2) composite and its successful formation was confirmed by various techniques. Then, a mixture of GOx and PLL was immobilized to form the RGO-ZrO sub(2) composite. Direct electrochemistry of the GOx was attained for the composite film showing well-defined redox peaks centered at the formal potential -0.403 V. Notably, the peak to peak separation ( Delta E sub(p)) was very low (27 mV), while the heterogeneous rate constant for the fast electron transfer was calculated to be 5.03 ( plus or minus 0.14 s super(-1)) revealed. The composite film modified electrode exhibited excellent electrocatalytic ability through the reductive detection of oxygen. A glucose biosensor was developed using the GOx-PLL/RGO-ZrO sub(2) composite film modified electrode which functioned using differential pulse voltammetry (DPV). The fabricated biosensor exhibited good electrocatalytic ability for the determination of glucose with excellent analytical parameters such as wide linear range of 0.29 mM to 14 mM and high sensitivity of 11.65 ( plus or minus 0.17) mu A mM super(-1) cm super(-2). The sensor results also exhibited appreciable repeatability, reproducibility and stability. Good recovery rates were achieved for the real sample studies proving the promise and practicality of the proposed sensor.
doi_str_mv	10.1039/c4ra04350b
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The fabricated biosensor exhibited good electrocatalytic ability for the determination of glucose with excellent analytical parameters such as wide linear range of 0.29 mM to 14 mM and high sensitivity of 11.65 ( plus or minus 0.17) mu A mM super(-1) cm super(-2). The sensor results also exhibited appreciable repeatability, reproducibility and stability. 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The fabricated biosensor exhibited good electrocatalytic ability for the determination of glucose with excellent analytical parameters such as wide linear range of 0.29 mM to 14 mM and high sensitivity of 11.65 ( plus or minus 0.17) mu A mM super(-1) cm super(-2). The sensor results also exhibited appreciable repeatability, reproducibility and stability. Good recovery rates were achieved for the real sample studies proving the promise and practicality of the proposed sensor.</abstract><doi>10.1039/c4ra04350b</doi><tpages>10</tpages></addata></record>
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source	Royal Society Of Chemistry Journals 2008-
subjects	Biosensors Electrochemistry Electrodes Glucose Graphene Mathematical analysis Oxides Sensors
title	Direct electrochemistry of glucose oxidase immobilized on ZrO sub(2) nanoparticles-decorated reduced graphene oxide sheets for a glucose biosensor
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