Search results for "Faradaic impedance"

showing 6 items of 6 documents

Analysis of an impedance function of zinc anodic dissolution

2004

Zinc anodic dissolution has been studied by means of electrochemical impedance spectroscopy (EIS). The kinetic study of the oxidation mechanism has allowed us to propose a theoretical impedance function for this system in deaerated sulphate medium. Relevant information on the faradaic process is provided by analysis of the theoretical impedance function. Kinetic parameters of this system can be calculated from the fitting of experimental data to the faradaic impedance function deduced theoretically. The physical measurements of this function are analysed by means of the dependence of simulated EIS spectra on kinetic parameters.

Aqueous solutionChemistryGeneral Chemical EngineeringFaradaic impedanceAnalytical chemistrychemistry.chemical_elementZincKinetic energyAnalytical ChemistryDielectric spectroscopyReaction rate constantTransition metalElectrochemistryElectrical impedanceJournal of Electroanalytical Chemistry
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Electrochemical impedance spectroscopy of thin films with two mobile charge carriers: effects of the interfacial charging

1999

In the electrochemical systems containing an excess of the background electrolyte, the faradaic process and the interfacial (‘double-layer’) charging are coupled to the fluxes of different charge carriers, the former being related to the diffusional transport of electroactive entities while the latter being realized mostly by ions of the supporting electrolyte. As a result, the interfacial capacitance Cdl may simply be added in parallel to the faradaic impedance specific for each particular system (Randles & Ershler). This simple treatment is not justified in the absence of an indifferent electrolyte, if the same charged species take part in both the electrode reaction and the double layer …

Double layer (biology)ChemistrySupporting electrolyteGeneral Chemical EngineeringFaradaic impedanceAnalytical chemistryElectrolyteConductivityAnalytical ChemistryDielectric spectroscopyIonChemical physicsElectrochemistryCharge carrierJournal of Electroanalytical Chemistry
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Electrochemical impedance spectroscopy as a tool to estimate thickness in PB films

2006

The analysis of the faradaic impedance of electroactive films provides a characteristic point from which it is possible to estimate the thickness of thin films. Thus, electrochemical impedance spectroscopy was used in this paper as a fast and easy technique to estimate this thickness. The proposed method was checked on PB films. Keywords: Prussian blue, Electrochemical impedance spectroscopy, Thickness

Prussian blueFaradaic impedanceAnalytical chemistryElectrode impedanceDielectric spectroscopylcsh:Chemistrychemistry.chemical_compoundchemistrylcsh:Industrial electrochemistrylcsh:QD1-999Electrochemistry[CHIM]Chemical SciencesThin filmCharacteristic pointElectrode potentiallcsh:TP250-261Prussian blue; Electrochemical impedance spectroscopy; Thickness
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Graphical Analysis of Electrochemical Impedance Spectroscopy of Two Consecutive Irreversible Electron Transfers. 1. Theoretical Study of the Anodic D…

2006

A general function for the faradaic impedance associated to a two consecutive single electron transfer mechanism followed by a irreversible first-order step has been obtained on the basis of formal kinetics. Kinetic parameters associated to this reaction mechanism can be obtained from the different kind of plots of the impedance function: Nyquist, Cole-Cole, and different Bode plots. A strategy for obtaining all parameters is suggested and analyzed on a detailed flowchart.

Reaction mechanismChemistryBode plotFaradaic impedanceKineticsMaterials ChemistryAnalytical chemistryElectronPhysical and Theoretical ChemistryKinetic energyElectrical impedanceSurfaces Coatings and FilmsDielectric spectroscopyThe Journal of Physical Chemistry B
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Singular points of electrochemical impedance function

2004

A model of EIS response for a system with two consecutive monoelectron transfers is developed in this work. Relevant information on the mechanism of these electrochemical systems is provided by the parametrical identification of the theoretical faradaic impedance function. The kinetic parameters of this model are easily calculated through the calculus of the characteristic points of this function. This calculus allows to interpret the metals anodic dissolution according to the reaction mechanism and, therefore, allows us to establish easily the kinetic and thermodynamic behaviour of these systems with respect to any experimental parameter.

Work (thermodynamics)ChemistryFaradaic impedanceMathematical analysisAnalytical chemistryGeneral Physics and AstronomySurfaces and InterfacesGeneral ChemistryFunction (mathematics)Singular point of a curveCondensed Matter PhysicsKinetic energyElectrochemistrySurfaces Coatings and FilmsNyquist plotElectrical impedanceApplied Surface Science
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Kinetics of zinc anodic dissolution from the EIS characteristic points

2003

A possible faradaic impedance function for the complex mechanism of metals electrodissolution across two consecutive electrotransferences has been developed in this work. The analysis of this function provides some characteristics points from which it is possible to calculate kinetic parameters of these processes. The dependence of these parameters on the potential has been studied in the case of Zn. These ones have been interpreted in terms of changes in the controlling stages of the overall rate of reaction. Keywords: EIS simulation, Zinc anodic dissolution, Kinetic constants and electron transfer

Work (thermodynamics)Faradaic impedanceKineticsAnalytical chemistrychemistry.chemical_elementThermodynamicsZincElectrochemistryKinetic energylcsh:ChemistryReaction ratelcsh:Industrial electrochemistrylcsh:QD1-999chemistryElectrodeElectrochemistrylcsh:TP250-261Electrochemistry Communications
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