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The Theoretical Description for Psilocin Electrochemical Determination over Cobalt Oxyhydroxide

Volodymyr Tkach, Mykhailo Kucher, Marta V. Kushnir, Yana G. Ivanushko, Yüksel Akınay, Necdet Karakoyun, Petró Yagodynets, Жолт Кормош

Orbital - The Electronic Journal of Chemistry April 6, 2023 Peer reviewed DOI: 10.17807/orbital.v15i1.18012 via OpenAlex

Summary

Psilocin can be effectively determined electrochemically using a cobalt (III) oxyhydroxide-modified anode. The oxidation of psilocin produces both micro- and macromolecular products, which are valuable for creating environmentally friendly conducting polymer composites used in electrocatalysis and energy conversion. A mathematical model indicates that the electrochemical process is efficient, despite the potential for oscillatory behavior.

Study at a glance

Key finding The electrochemical determination of psilocin using a cobalt (III) oxyhydroxide-modified anode is efficient for producing valuable polymer composites.

Abstract

The possibility of psilocin electrochemical determination over cobalt (III) oxyhydroxide-modified anode is evaluated from the mathematical point of view. Psilocin is thereby oxidized yielding either micro- or macromolecular product, being both of them important for the economical and green conducting polymer composite for electrocatalysis, electroanalysis and energy conversion. The analysis of the correspondent mathematical model confirms, that, despite of the high probability of the oscillatory behavior, the electrochemical process is efficient from both analytical and synthetical point of view.

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