The chemical capacitance as a fingerprint of defect chemistry in mixed conducting oxides

Alexander Schmid; Ghislain M Rupp; Christoph Slouka; Edvinas Navickas; Lukas Andrejs; Herbert Hutter; Lukas Volgger; Andreas Nenning; Juergen Fleig

doi:10.17344/acsi.2016.2302

Acta Chimica Slovenica (May 2016)

The chemical capacitance as a fingerprint of defect chemistry in mixed conducting oxides

Alexander Schmid,
Ghislain M Rupp,
Christoph Slouka,
Edvinas Navickas,
Lukas Andrejs,
Herbert Hutter,
Lukas Volgger,
Andreas Nenning,
Juergen Fleig

Affiliations

Alexander Schmid: Institute of Chemical Technologies and Analytics Vienna University of Technology
Ghislain M Rupp: Institute of Chemical Technologies and Analytics Vienna University of Technology
Christoph Slouka: Institute of Chemical Technologies and Analytics Vienna University of Technology
Edvinas Navickas: Institute of Chemical Technologies and Analytics Vienna University of Technology
Lukas Andrejs: Institute of Chemical Technologies and Analytics Vienna University of Technology
Herbert Hutter: Institute of Chemical Technologies and Analytics Vienna University of Technology
Lukas Volgger: Institute of Chemical Technologies and Analytics Vienna University of Technology
Andreas Nenning: Institute of Chemical Technologies and Analytics Vienna University of Technology
Juergen Fleig

DOI: https://doi.org/10.17344/acsi.2016.2302
Journal volume & issue: Vol. 63, no. 3
pp. 509 – 518

Abstract

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The oxygen stoichiometry of mixed conducting oxides depends on the oxygen chemical potential and thus on the oxygen partial pressure in the gas phase. Also voltages may change the local oxygen stoichiometry and the amount to which such changes take place is quantified by the chemical capacitance of the sample. Impedance spectroscopy can be used to probe this chemical capacitance. Impedance measurements on different oxides ((La,Sr)FeO3-d = LSF, Sr(Ti,Fe)O3-d = STF, and Pb(Zr,Ti)O3 = PZT) are presented, and demonstrate how the chemical capacitance may affect impedance spectra in different types of electrochemical cells. A quantitative analysis of the spectra is based on generalized equivalent circuits developed for mixed conducting oxides by J. Jamnik and J. Maier. It is discussed how defect chemical information can be deduced from the chemical capacitance.

Published in Acta Chimica Slovenica

ISSN: 1318-0207 (Print); 1580-3155 (Online)
Publisher: Slovenian Chemical Society
Country of publisher: Slovenia
LCC subjects: Science: Chemistry
Website: http://acta.chem-soc.si/

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