Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor

Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor

A mathematical model of modified enzyme-membrane electrode for steady-state condition is discussed. This model contains a nonlinear term related to enzyme kinetics reaction mechanism. The thickness dependence of an amperometric biosensor is presented both analytically and numerically where the biolo...

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Main Authors: Loghambal Shunmugham, L. Rajendran
Format: Article
Language:English
Published: Hindawi Limited 2013-01-01
Series:International Journal of Electrochemistry
Online Access:http://dx.doi.org/10.1155/2013/812856
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spelling doaj-6d4d098d94594440ad1361568b7687482020-11-25T00:02:15ZengHindawi LimitedInternational Journal of Electrochemistry2090-35292090-35372013-01-01201310.1155/2013/812856812856Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric BiosensorLoghambal Shunmugham0L. Rajendran1Department of Mathematics, V V College of Engineering, Tisaiyanvilai, Tamil Nadu 627657, IndiaDepartment of Mathematics, The Madura College, Madurai, Tamil Nadu 625011, IndiaA mathematical model of modified enzyme-membrane electrode for steady-state condition is discussed. This model contains a nonlinear term related to enzyme kinetics reaction mechanism. The thickness dependence of an amperometric biosensor is presented both analytically and numerically where the biological layer is immobilized between a solid substrate and permeable electrode. The analytical expressions pertaining to the concentration of species and normalized current are obtained using the Adomian decomposition method (ADM). Simple and approximate polynomial expressions of concentrations of an oxidized mediator, substrate, and reduced mediator are derived for all possible values of parameters ϕO2 (Thiele modulus), BO (normalized surface concentration of oxidized mediator), and BS (normalized surface concentration of substrate). A comparison of the analytical approximation and numerical simulation is also presented. A good agreement between theoretical predictions and numerical results is observed.http://dx.doi.org/10.1155/2013/812856
collection DOAJ
language English
format Article
sources DOAJ
author Loghambal Shunmugham
L. Rajendran
spellingShingle Loghambal Shunmugham
L. Rajendran
Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor
International Journal of Electrochemistry
author_facet Loghambal Shunmugham
L. Rajendran
author_sort Loghambal Shunmugham
title Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor
title_short Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor
title_full Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor
title_fullStr Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor
title_full_unstemmed Analytical Expressions for Steady-State Concentrations of Substrate and Oxidized and Reduced Mediator in an Amperometric Biosensor
title_sort analytical expressions for steady-state concentrations of substrate and oxidized and reduced mediator in an amperometric biosensor
publisher Hindawi Limited
series International Journal of Electrochemistry
issn 2090-3529
2090-3537
publishDate 2013-01-01
description A mathematical model of modified enzyme-membrane electrode for steady-state condition is discussed. This model contains a nonlinear term related to enzyme kinetics reaction mechanism. The thickness dependence of an amperometric biosensor is presented both analytically and numerically where the biological layer is immobilized between a solid substrate and permeable electrode. The analytical expressions pertaining to the concentration of species and normalized current are obtained using the Adomian decomposition method (ADM). Simple and approximate polynomial expressions of concentrations of an oxidized mediator, substrate, and reduced mediator are derived for all possible values of parameters ϕO2 (Thiele modulus), BO (normalized surface concentration of oxidized mediator), and BS (normalized surface concentration of substrate). A comparison of the analytical approximation and numerical simulation is also presented. A good agreement between theoretical predictions and numerical results is observed.
url http://dx.doi.org/10.1155/2013/812856
work_keys_str_mv AT loghambalshunmugham analyticalexpressionsforsteadystateconcentrationsofsubstrateandoxidizedandreducedmediatorinanamperometricbiosensor
AT lrajendran analyticalexpressionsforsteadystateconcentrationsofsubstrateandoxidizedandreducedmediatorinanamperometricbiosensor
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