Review article
https://doi.org/10.5599/jese.1313
Fabrications of electrochemical sensors based on carbon paste electrode for vitamin detection in real samples
Vaishnavi Sharma
orcid.org/0000-0002-5176-7848
; Laboratory of Quantum Electrochemistry, School of Advanced Chemical Sciences, Shoolini University, Bajhol, Himachal Pradesh, 173229, India
Gururaj Kudur Jayaprakas
orcid.org/0000-0003-0681-7815
; Laboratory of Quantum Electrochemistry, School of Advanced Chemical Sciences, Shoolini University, Bajhol, Himachal Pradesh, 173229, India
Abstract
This review article examines some advancements in electrochemical sensors for vitamin detection in the past few decades. Vitamins are micronutrients found in natural foods essential for maintaining good health. Most vitamins cannot be synthesized by a body and must be obtained externally from natural food. Vitamins make a class of organic chemicals that shortage can cause various ailments and diseases, and consumption can become harmful if it exceeds the usually needed level. Because of these factors, vitamin detection has become highly significant and sparked interest over the past few decades. The electrochemical sensors function on the concept of electrochemical activity of practically all vitamins. This implies that concentrations of vitamins in the electrolyte may be detected by measuring the amounts of current generated at certain potentials by their oxidation and reduction at the working electrode surface. Voltammetric methods are superior to other methods because they are cheaper and show sharp sensitivity with faster analysis speed. The carbon-based electrodes, in particular carbon paste electrodes (CPE), have significant advantages like easier catalyst incorporation, surface renewability, and expanded potential windows with lower ohmic resistance. This review goes into detail about several electrochemical sensors involving CPE as the working electrode and its utilization to detect water- and fat-soluble vitamins.
Keywords
Water-soluble vitamins; fat-soluble vitamins; redox reactions; voltammetry; modifiers
Hrčak ID:
279222
URI
Publication date:
13.6.2022.
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