Fabrication of bienzyme nanobiocomposite electrode using functionalized carbon nanotubes for biosensing applications

Mediated biosensors consisting of an oxidase and peroxidase (PO x) have attracted increasing attention because of their wider applicability. This work presents a novel approach to fabricate nanobiocomposite bienzymatic biosensor based on functionalized multiwalled carbon nanotubes (MWNTs) with the a...

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Bibliographic Details
Published in:Biosensors & bioelectronics 2008-06, Vol.23 (11), p.1686-1693
Main Authors: Jeykumari, D.R. Shobha, Narayanan, S. Sriman
Format: Article
Language:English
Subjects:
Bienzyme
Biological and medical sciences
Biosensing Techniques - instrumentation
Biosensor
Biosensors
Biotechnology
Electrochemistry - instrumentation
Equipment Design
Equipment Failure Analysis
Fundamental and applied biological sciences. Psychology
Glucose
Glucose - analysis
Hydrogen peroxide
Methods. Procedures. Technologies
Microelectrodes
Multienzyme Complexes - chemistry
Nanobiocomposite
Nanotechnology - instrumentation
Nanotubes, Carbon - chemistry
Nanotubes, Carbon - ultrastructure
Thionin
Various methods and equipments
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Summary:Mediated biosensors consisting of an oxidase and peroxidase (PO x) have attracted increasing attention because of their wider applicability. This work presents a novel approach to fabricate nanobiocomposite bienzymatic biosensor based on functionalized multiwalled carbon nanotubes (MWNTs) with the aim of evaluating their ability as sensing elements in amperometric transducers. Electrochemical behavior of the bienzymatic nanobiocomposite biosensor is investigated by Faradaic impedance spectroscopy and cyclic voltammetry. The results indicate that glucose oxidase (GOD) and horseradish peroxidase (HRP) are strongly adsorbed on the surface of the thionin (TH) functionalized MWNTs and demonstrate a facile electron transfer between immobilized GOD/HRP and the electrode via the functionalized MWNTs in a Nafion film. The functionalized carbon nanotubes act as molecular wires to allow efficient electron transfer between the underlying electrode and the redox centres of enzymes through TH. Linear ranges for these electrodes are from 10 nM to 10 mM for glucose and 17 nM to 56 mM for hydrogen peroxide with the detection limit of 3 and 6 nM, respectively. A remarkable feature of the bienzyme electrode is the possibility to determine glucose and hydrogen peroxide at a very low applied potential where the noise level and interferences from other electroactive compounds are minimal. Performance of the biosensor is evaluated with respect to response time, detection limit, selectivity, temperature and pH as well as operating and storage stability.
ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2008.02.001