Extrapolation to zero frequency with first time constant of ferri-ferrocyanide/Pt interface using Foster equivalent circuit and factorized modelling

An estimation of low frequency parameters at the interface of a ferri-ferrocyanide solution on a Pt rotating disk electrode is presented. The determination of the total resistance and effective (low frequency) capacity is based on a Foster's model extrapolation using electrochemical impedance s...

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Bibliographic Details
Published in:Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2019-04, Vol.839, p.256-263
Main Authors: Lagonotte, P., Ilie, V.A. Raileanu, Martemianov, S., Thomas, A.
Format: Article
Language:English
Subjects:
Acoustics
Automatic
Biomechanics
Chemical Sciences
Circuits
DC resistance
Electric power
Electrochemical impedance spectroscopy
Electrochemical systems
Electrode polarization
Electromagnetism
Engineering Sciences
Equilibrium conditions
Equivalent circuits
Extrapolation
Ferri-ferrocyanide
First-time constant
Fluid mechanics
Foster circuits
Foster's modelling
Identification
Iron cyanides
Low frequencies
Low-frequency parameters
Material chemistry
Materials and structures in mechanics
Mathematical models
Mathematical Physics
Mechanics
Parameter estimation
Parameter identification
Physics
Polymers
Quantum Physics
Reactive fluid environment
Rotating disks
Thermics
Time constant
Vibrations
Zero frequency extrapolation
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Summary:An estimation of low frequency parameters at the interface of a ferri-ferrocyanide solution on a Pt rotating disk electrode is presented. The determination of the total resistance and effective (low frequency) capacity is based on a Foster's model extrapolation using electrochemical impedance spectroscopy measurements. The feasibility of the proposed approach has been demonstrated at equilibrium conditions and under two polarization points. Results show a good agreement with the identified and experimental values particularly in the extra-low frequency domain. Results also demonstrate that using factorized expression (poles and zeros) of the impedance allow the stability of the identified parameters and the calculation of the first time-constant of the system. Consequently, Foster's models as equivalent to Voight-type equivalent circuit can be used for the zero frequency extrapolation and predict the response of the interface in time domain that it is certainly useful for practical electrochemical systems. •Zero frequency extrapolation parameters at Ferri-Ferrocyanide/Pt interface is obtained.•Parameters determination is based on a Foster model identification.•Factorized Foster impedance allows the first time-constant calculation.•Foster models can be used to predict the response of the interface in time domain.
ISSN:1572-6657
1873-2569
DOI:10.1016/j.jelechem.2019.03.047