Analysis of amperometric biosensor utilizing synergistic substrates conversion: Akbari-Ganji's method

Analysis of amperometric biosensor utilizing synergistic substrates conversion: Akbari-Ganji's method

The biological recognition of enzymes was the basis of enzyme-based chemical biosensors. It is essential for a biosensor to function under normal operating conditions so that enzymes can catalyze biochemical reactions. The mechanism of a modified enzyme-membrane electrode in a catalytic cycle was de...

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Bibliographic Details
Main Authors: K. P. V. Preethi, H. Alotaibi, J. Visuvasam
Format: Article
Language:English
Published: AIMS Press 2024-09-01
Series:Mathematical Modelling and Control
Subjects:
mathematical modeling
nonlinear differential equations
akbari-ganji's method
numerical simulation
amperometric biosensor
immobilized enzyme
Online Access:https://www.aimspress.com/article/doi/10.3934/mmc.2024028
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Summary:The biological recognition of enzymes was the basis of enzyme-based chemical biosensors. It is essential for a biosensor to function under normal operating conditions so that enzymes can catalyze biochemical reactions. The mechanism of a modified enzyme-membrane electrode in a catalytic cycle was described using a mathematical model. The nonlinear terms associated with enzyme kinetics were presented in this model. The Akbari-Ganji's method (AGM) was used to calculate the semi-analytical expressions for species concentration and normalized current. For all possible values of the Thiele modulus, normalized surface concentration of the oxidized mediator, and normalized surface concentration of the substrate, a simple and approximate hyperbolic expression of concentrations of an oxidized mediator, substrate, and reduced mediator were derived. The numerical simulation was then verified using semi-analytical results. The numerical simulation and semi-analytical predictions agreed well with each other.
ISSN:2767-8946

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