Title of article
La3+-doped Co3O4 Nanoflowers Modified Graphite Screen Printed Electrode for Electrochemical Sensing of Vitamin B6
Author/Authors
Garkani Nejad, Fariba Environment Department - Institute of Science and High Technology and Environmental Sciences - Graduate University of Advanced Technology, Kerman, Iran , Beitollahi, Hadi Environment Department - Institute of Science and High Technology and Environmental Sciences - Graduate University of Advanced Technology, Kerman, Iran , Tajik, Somayeh NanoBioEletrochemistry Research Center - Bam University of Medical Sciences, Bam, Iran , Jahani, Shohreh NanoBioEletrochemistry Research Center - Bam University of Medical Sciences, Bam, Iran
Pages
11
From page
69
To page
79
Abstract
In this study, we combined the advantages of good conductivity, small size, large surface area, and the catalytic property of La3+/Co3O4
nanoflowers to fabricate an electrochemical sensor sensitive for determination of vitamin B6 in real samples. La3+/Co3O4 nanoflowers were
synthesized by a co-precipitation method that is a convenient, environment-friendly, and inexpensive process. The synthesized nanoflowers
were characterized by SEM. A simple and sensitive sensor based on graphite screen printed electrode (GSPE) modified by La3+/Co3O4
nanoflowers was developed for the electrochemical determination of vitamin B6. The electrochemical behavior of vitamin B6 was studied
in 0.1 M phosphate buffer solution (PBS) using cyclic voltammetry (CV), chronoamperometry (CHA), and differential pulse voltammetry
(DPV). The modified electrode (La3+/Co3O4NFs/GSPE) showed excellent electrocatalytic activity and remarkable sensitivity towards the
oxidation of vitamin B6. The fabricated sensor displayed good operating characteristics including low detection limit, and a wide linear
dynamic range for the detection of vitamin B6. Using La3+/Co3O4NFs/GSPE as the working electrode, a linear dynamic range between
1.0-600.0 μM and a limit of detection of 0.4 μM were obtained. Finally, reliability and accuracy of the proposed sensor were studied in real
samples.
Keywords
La3+/Co3O4 Nanoflowers , Electrochemical sensor , Vitamin B6 , Real samples , Modified electrode
Journal title
Astroparticle Physics
Serial Year
2019
Record number
2459599
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