Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains

Van Haeverbeke, Maxime; Stock, Michiel; De Baets, Bernard

Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains

Maxime Van Haeverbeke (UGent) , Michiel Stock (UGent) and Bernard De Baets (UGent)

(2022) IEEE ACCESS. 10. p.51363-51379

Author

Maxime Van Haeverbeke (UGent) , Michiel Stock (UGent) and Bernard De Baets (UGent)

Organization

Department of Data analysis and mathematical modelling

Project

In situ Biofilm

Abstract

When studying electrochemical systems, EIS practitioners face the challenge of choosing a relevant equivalent electrical circuit to analyze their measurement data and interpreting the role of its components. In this review, we take a closer look at the use of equivalent electrical circuits (EEC) across various application domains. We aim to aid EIS practitioners in determining and evaluating their EEC-based data analysis methodology in light of recent progress from all EIS application domains. We review EEC usage and its interpretation while additionally providing software to automatically search for equivalent electrical circuits from the relevant application domain literature that fit EIS measurements supplied by users. Finally, we make a comparison of the impedimetric behaviour and circuit modelling approaches of a range of different electrochemical systems and discuss some complementary EIS data analysis strategies.

Keywords

Impedance, Capacitors, Integrated circuit modeling, Resistors, Voltage measurement, Time-domain analysis, Inductors, Electrochemical impedance spectroscopy, equivalent electrical circuit, battery, supercapacitor, fuel cell, corrosion, cement, plant, biosensor, LITHIUM-ION BATTERY, FUEL-CELL, RAPID DETECTION, PARAMETER-IDENTIFICATION, AC-IMPEDANCE, IMMUNOSENSOR, EIS, TISSUE, ELECTRODE, CORROSION

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Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8753927

MLA: Van Haeverbeke, Maxime, et al. “Equivalent Electrical Circuits and Their Use across Electrochemical Impedance Spectroscopy Application Domains.” IEEE ACCESS, vol. 10, 2022, pp. 51363–79, doi:10.1109/access.2022.3174067.
APA: Van Haeverbeke, M., Stock, M., & De Baets, B. (2022). Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains. IEEE ACCESS, 10, 51363–51379. https://doi.org/10.1109/access.2022.3174067
Chicago author-date: Van Haeverbeke, Maxime, Michiel Stock, and Bernard De Baets. 2022. “Equivalent Electrical Circuits and Their Use across Electrochemical Impedance Spectroscopy Application Domains.” IEEE ACCESS 10: 51363–79. https://doi.org/10.1109/access.2022.3174067.
Chicago author-date (all authors): Van Haeverbeke, Maxime, Michiel Stock, and Bernard De Baets. 2022. “Equivalent Electrical Circuits and Their Use across Electrochemical Impedance Spectroscopy Application Domains.” IEEE ACCESS 10: 51363–51379. doi:10.1109/access.2022.3174067.
Vancouver: 1.
Van Haeverbeke M, Stock M, De Baets B. Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains. IEEE ACCESS. 2022;10:51363–79.
IEEE: [1]
M. Van Haeverbeke, M. Stock, and B. De Baets, “Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains,” IEEE ACCESS, vol. 10, pp. 51363–51379, 2022.

@article{8753927,
  abstract     = {{When studying electrochemical systems, EIS practitioners face the challenge of choosing a relevant equivalent electrical circuit to analyze their measurement data and interpreting the role of its components. In this review, we take a closer look at the use of equivalent electrical circuits (EEC) across various application domains. We aim to aid EIS practitioners in determining and evaluating their EEC-based data analysis methodology in light of recent progress from all EIS application domains. We review EEC usage and its interpretation while additionally providing software to automatically search for equivalent electrical circuits from the relevant application domain literature that fit EIS measurements supplied by users. Finally, we make a comparison of the impedimetric behaviour and circuit modelling approaches of a range of different electrochemical systems and discuss some complementary EIS data analysis strategies.}},
  author       = {{Van Haeverbeke, Maxime and Stock, Michiel and De Baets, Bernard}},
  issn         = {{2169-3536}},
  journal      = {{IEEE ACCESS}},
  keywords     = {{Impedance,Capacitors,Integrated circuit modeling,Resistors,Voltage measurement,Time-domain analysis,Inductors,Electrochemical impedance spectroscopy,equivalent electrical circuit,battery,supercapacitor,fuel cell,corrosion,cement,plant,biosensor,LITHIUM-ION BATTERY,FUEL-CELL,RAPID DETECTION,PARAMETER-IDENTIFICATION,AC-IMPEDANCE,IMMUNOSENSOR,EIS,TISSUE,ELECTRODE,CORROSION}},
  language     = {{eng}},
  pages        = {{51363--51379}},
  title        = {{Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains}},
  url          = {{http://doi.org/10.1109/access.2022.3174067}},
  volume       = {{10}},
  year         = {{2022}},
}

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Equivalent electrical circuits and their use across electrochemical impedance spectroscopy application domains

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