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Abdollah Salimi

Abdollah Salimi

Academic rank: Professor
ORCID:
Education: PhD.
ScopusId: 57198900488
HIndex:
Faculty: Faculty of Science
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Phone:

Research

Title
Fabrication of Glucose Biosensor Based on Encapsulation of Glucose-Oxidase on Sol-Gel Composite at the Surface of Glassy Carbon Electrode Modified with Carbon Nanotubes and Celestine Blue
Type
JournalPaper
Keywords
Glassy carbon; MWCNTs; Glucose-oxidase; Sol-gel; Celestine blue; Glucose; Biosensor
Year
2008
Journal ELECTROANALYSIS
DOI
Researchers Abdollah Noorbakhsh ، Abdollah Salimi ، Ensiyeh Sharifi

Abstract

A simple procedure was developed to prepare a glassy carbon electrode modified with multi walled carbon nanotubes (MWCNTs) and Celestin blue. Cyclic voltammograms of the modified electrode show stable and a well defined redox couple with surface confined characteristic at wide pH range (2 – 12). The formal potential of redox couple (E’) shifts linearly toward the negative direction with increasing solution pH. The surface coverage of Celestine blue immobilized on CNTs glassy carbon electrode was approximately 1.951010 mol cm2. The charge transfer coefficient (a) and heterogeneous electron transfer rate constants (ks) for GC/MWCNTs/Celestine blue were 0.43 and 1.26 s1, respectively. The modified electrode show strong catalytic effect for reduction of hydrogen peroxide and oxygen at reduced overpotential. The glucose biosensor was fabricated by covering a thin film of sol-gel composite containing glucose oxides (GOx) on the surface of Celestine blue /MWCNTs modified GC electrode. The biosensor can be used successfully for selective detection of glucose based on the decreasing of cathodic peak current of oxygen. The detection limit, sensitivity and liner calibration rang were 0.3 mM, 18.3 mA/mM and 10 mM– 6.0 mM, respectively. The accuracy of the biosensor for glucose detection was evaluated by detection of glucose in a serum sample, using standard addition protocol. In addition biosensor can reach 90% of steady currents in about 3.0 sec and interference effect of the electroactive existing species (ascorbic acid – uric acid and acetaminophen) was eliminated. Furthermore, the apparent Michaelis – Menten constant 2.4 mM, of GOx on the nano composite exhibits excellent bioelectrocatalytic activity of immobilized enzyme toward glucose oxidation. Excellent electrochemical reversibility of redox couple, high stability, technically simple and possibility of preparation at short period of time are of great advantages of this procedure for modification of glucose biosensor