Harmonic distortion at the electrode/electrolyte interface: A physical interpretation of Schwan´s empirical model

Author

Richardot, A. ; McAdams, E.T.

Author_Institution

NIBEC, Ulster Univ., Newtownabbey, UK

fYear

2001

fDate

18-21 Nov. 2001

Firstpage

277

Lastpage

280

Abstract

This paper concerns the modelling and interpretation of the non-linear harmonic behaviour of biomedical electrode/electrolyte interfaces. For the first time a physical interpretation of the published work on this phenomenon by Schwan and his colleagues (1999) is given. Higher order harmonics were calculated based on the assumption that the non-linearity of the interfacial impedance is dominated at low frequencies by the faradaic charge transfer resistance which shunts the relatively linear non-faradaic double layer capacitance. The dependence of harmonic components on the applied signal amplitude was compared between (i) a model based on the Butler-Volmer equation and (ii) Schwan´s experimental and empirical results. A good agreement was found, between the theoretical model and Schwan´s empirical observations.

Keywords

biochemistry; biomedical electrodes; digital simulation; electric impedance; electrolytes; medical computing; nonlinear dynamical systems; Butler-Volmer equation; applied signal amplitude; biomedical electrode/electrolyte interfaces; faradaic charge transfer resistance; higher order harmonics; linear nonfaradaic double layer capacitance; nonlinear harmonic behaviour; Biomedical measurements; Capacitance measurement; Charge transfer; Distortion measurement; Electrical resistance measurement; Electrons; Equations; Harmonic distortion; Immune system; Phase measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Information Systems Conference, The Seventh Australian and New Zealand 2001

Print_ISBN

1-74052-061-0

Type

conf

DOI

10.1109/ANZIIS.2001.974090

Filename

974090