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Second-Harmonic Nonlinear Electrochemical Impedance Spectroscopy: Part I. Analytical Theory and Equivalent Circuit Representations for Planar and Porous Electrodes

Yuefan Ji, Daniel T. Schwartz

2023Journal of The Electrochemical Society13 citationsDOIOpen Access PDF

Abstract

Analytical theory for second harmonic nonlinear electrochemical impedance spectroscopy (2nd-NLEIS) of planar and porous electrodes is developed for interfaces governed by Butler-Volmer kinetics, a Helmholtz (mainly) or Gouy-Chapman (introduced) double layer, and transport by ion migration and diffusion. A continuum of analytical EIS and 2nd-NLEIS models is presented, from nonlinear Randles circuits with or without diffusion impedances to nonlinear macrohomogeneous porous electrode theory that is shown to be analogous to a nonlinear transmission-line model. EIS and 2nd-NLEIS for planar electrodes share classic charge transfer RC and diffusion time-scales, whereas porous electrode EIS and 2nd-NLEIS share three characteristic time constants. In both cases, the magnitude of 2nd-NLEIS is proportional to nonlinear charge transfer asymmetry and thermodynamic curvature parameters. The phase behavior of 2nd-NLEIS is more complex and model-sensitive than in EIS, with half-cell NLEIS spectra potentially traversing all four quadrants of a Nyquist plot. We explore the power of simultaneously analyzing the linear EIS and 2nd-NLEIS spectra for two-electrode configurations, where the full-cell linear EIS signal arises from the sum of the half-cell spectra, while the 2nd-NLEIS signal arises from their difference.

Topics & Concepts

Dielectric spectroscopyPlanarElectrical impedanceElectrodeNonlinear systemEquivalent circuitElectrochemistryHarmonicMaterials sciencePorosityAnalytical Chemistry (journal)PhysicsChemistryAcousticsComposite materialVoltageQuantum mechanicsComputer scienceOrganic chemistryComputer graphics (images)Electrochemical Analysis and ApplicationsConducting polymers and applicationsAnalytical Chemistry and Sensors
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