Prerequisites for Development of Electrochemical Planar Sensor Based on RGO–PPD–SiW Composite for Determining Isoniazid Content in Biological Liquids

A new redox-active composite material based on reduced graphene oxide (RGO), poly- o -phenylenediamine (PPD), and silicotungstic acid (SiW) is studied. The SEM data showed an abrupt decrease in the content of oxygen atoms in the composite as compared to pure graphene oxide (GO). This is associated w...

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Bibliographic Details
Published in:Russian journal of electrochemistry 2023-03, Vol.59 (3), p.213-221
Main Authors: Pisarevskaya, E. Yu, Klyuev, A. L., Efimov, O. N., Shapagin, A. V., Andreev, V. N.
Format: Article
Language:English
Subjects:
Chemistry
Chemistry and Materials Science
Composite materials
Electrochemistry
Electrodes
Graphene
Oxidation
Oxygen atoms
Phenylenediamine
Physical Chemistry
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Summary:A new redox-active composite material based on reduced graphene oxide (RGO), poly- o -phenylenediamine (PPD), and silicotungstic acid (SiW) is studied. The SEM data showed an abrupt decrease in the content of oxygen atoms in the composite as compared to pure graphene oxide (GO). This is associated with its reduction to RGO in the course of RGO–PPD–SiW synthesis. A combination of RGO conductivity and redox catalysis due to the electroactive components (PPD and SiW) enables one to develop various sensors by applying RGO–PPD–SiW onto planar electrodes (screen-printed carbon electrodes, SPCE). In this work, the possibility of developing a sensor for the content of antituberculous antibiotic isoniazid (isonicotinic acid hydrazide C 6 H 7 N 3 O, INAH) is studied. Using the CVA method, it is shown that the concentration dependence of isoniazid oxidation current is linear. The electrocatalytic behavior of the composite during the isoniazid oxidation is also supported by the impedance spectroscopy.
ISSN:1023-1935
1608-3342
DOI:10.1134/S1023193523030102