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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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Research

Title
Electrochemical properties and electrocatalytic activity of FAD immobilized onto cobalt oxide nanoparticles: Application to nitrite detection
Type
JournalPaper
Keywords
FAD; Cobalt oxide; Nanoparticles; Glassy carbon electrode; Nitrite; Sensor
Year
2008
Journal JOURNAL OF ELECTROANALYTICAL CHEMISTRY
DOI
Researchers Abdollah Salimi ، Rahman Hallaj ، Hosein Mamkhezri ، sayed mohammad taher Hossaini

Abstract

Cyclic voltammetry has been used for modification of glassy carbon (GC) electrode with cobalt oxide (CoOx) nanoparticles and flavin adenine dinucleotide (FAD) film. Electrodeposited cobalt oxide may be a promising material for FAD immobilization owing to its high biocompatibility and large surface. The adsorbed FAD film is stable and electrochemically active in aqueous solution. The FAD films assembled on cobalt oxide exhibited a pair of well defined, stable and nearly reversible CV peaks at wide pH range. The formal potential of adsorbed FAD onto cobalt oxide nanoparticles film, E00 vs. Ag/AgCl reference electrode is 0.44 V in pH 7 buffer solution was similar to dissolved FAD and changed linearly with a slope of 46 mV/pH in the pH range 4–12. The surface coverage and heterogeneous electron transfer rate constant (ks) of FAD immobilized on CoOx film glassy carbon electrode are 1.47  109 mol cm2 and 0.85 ± 0.1 s1, indicating the high loading ability of the CoOx nanoparticles and great facilitation of the electron transfer between FAD and CoOx nanoparticles. Cobalt oxide/FAD composite modified GC electrode shows excellent catalytic activity for nitrite reduction at reduced overpotential. Furthermore, FAD/CoOx rotating disk electrode modified GC electrode shows good analytical performance for amperometric determination nitrite. Under optimized condition of the amperometry method the concentration calibration range, detection limit and sensitivity are 1–30 lV, 0.20 lM and 10.5 nA/lM, respectively. Finally the kinetics of the catalytic reaction between nitrite anion and reduced FAD was characterized, using cyclic voltammetry and a value of 2.08 (±0.3)  103 M1 s1 was obtained for the rate constant.