Measurement and Analysis of Dynamic Impedance Spectra Acquired During the Oscillatory Electrodissolution of p-Type Silicon in Fluoride-Containing Electrolytes

Dominique Koster; Maximilian Patzauer; Munir M. Salman; Alberto Battistel; Katharina Krischer; Fabio La Mantia

doi:10.1002/celc.201800252

Measurement and Analysis of Dynamic Impedance Spectra Acquired During the Oscillatory Electrodissolution of p-Type Silicon in Fluoride-Containing Electrolytes

Dominique Koster, Maximilian Patzauer, Munir M. Salman, Alberto Battistel, Katharina Krischer, Fabio La Mantia

Associate Professorship of Technical Physics

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Using dynamic multifrequency analysis (DMFA), we investigated the oscillatory reaction dynamics that govern the anodic electrodissolution of p-type silicon in fluoride-containing electrolytes, in which the anodization of silicon is followed by the chemical etching of the oxide layer. By applying a constant voltage to the silicon electrode, stable oscillations are found in the presence of an external resistance. The dynamic impedance spectra acquired through DMFA were fitted to a suitable electrical equivalent circuit. In doing so, it was possible to investigate the temporal evolution of the kinetic parameters throughout the formation and dissolution of the silicon oxide.

Original language	English
Pages (from-to)	1548-1551
Number of pages	4
Journal	ChemElectroChem
Volume	5
Issue number	12
DOIs	https://doi.org/10.1002/celc.201800252
State	Published - 12 Jun 2018

Keywords

dynamic impedance spectroscopy
dynamic multifrequency analysis
electrodissolution
oscillatory dynamics
silicon

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10.1002/celc.201800252

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title = "Measurement and Analysis of Dynamic Impedance Spectra Acquired During the Oscillatory Electrodissolution of p-Type Silicon in Fluoride-Containing Electrolytes",

abstract = "Using dynamic multifrequency analysis (DMFA), we investigated the oscillatory reaction dynamics that govern the anodic electrodissolution of p-type silicon in fluoride-containing electrolytes, in which the anodization of silicon is followed by the chemical etching of the oxide layer. By applying a constant voltage to the silicon electrode, stable oscillations are found in the presence of an external resistance. The dynamic impedance spectra acquired through DMFA were fitted to a suitable electrical equivalent circuit. In doing so, it was possible to investigate the temporal evolution of the kinetic parameters throughout the formation and dissolution of the silicon oxide.",

keywords = "dynamic impedance spectroscopy, dynamic multifrequency analysis, electrodissolution, oscillatory dynamics, silicon",

author = "Dominique Koster and Maximilian Patzauer and Salman, {Munir M.} and Alberto Battistel and Katharina Krischer and {La Mantia}, Fabio",

note = "Publisher Copyright: {\textcopyright} 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim",

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T1 - Measurement and Analysis of Dynamic Impedance Spectra Acquired During the Oscillatory Electrodissolution of p-Type Silicon in Fluoride-Containing Electrolytes

AU - Koster, Dominique

AU - Patzauer, Maximilian

AU - Salman, Munir M.

AU - Battistel, Alberto

AU - Krischer, Katharina

AU - La Mantia, Fabio

PY - 2018/6/12

Y1 - 2018/6/12

N2 - Using dynamic multifrequency analysis (DMFA), we investigated the oscillatory reaction dynamics that govern the anodic electrodissolution of p-type silicon in fluoride-containing electrolytes, in which the anodization of silicon is followed by the chemical etching of the oxide layer. By applying a constant voltage to the silicon electrode, stable oscillations are found in the presence of an external resistance. The dynamic impedance spectra acquired through DMFA were fitted to a suitable electrical equivalent circuit. In doing so, it was possible to investigate the temporal evolution of the kinetic parameters throughout the formation and dissolution of the silicon oxide.

AB - Using dynamic multifrequency analysis (DMFA), we investigated the oscillatory reaction dynamics that govern the anodic electrodissolution of p-type silicon in fluoride-containing electrolytes, in which the anodization of silicon is followed by the chemical etching of the oxide layer. By applying a constant voltage to the silicon electrode, stable oscillations are found in the presence of an external resistance. The dynamic impedance spectra acquired through DMFA were fitted to a suitable electrical equivalent circuit. In doing so, it was possible to investigate the temporal evolution of the kinetic parameters throughout the formation and dissolution of the silicon oxide.

KW - dynamic impedance spectroscopy

KW - dynamic multifrequency analysis

KW - electrodissolution

KW - oscillatory dynamics

KW - silicon

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JO - ChemElectroChem

JF - ChemElectroChem

IS - 12

ER -

Measurement and Analysis of Dynamic Impedance Spectra Acquired During the Oscillatory Electrodissolution of p-Type Silicon in Fluoride-Containing Electrolytes

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