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Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach

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Zeitschriftentitel: Materials Science Forum
Personen und Körperschaften: Ávila, A., Poveda, J., Gómez, D., Hotza, D., Escobar, J.
In: Materials Science Forum, 727-728, 2012, S. 769-774
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics
General Materials Science
author_facet Ávila, A.
Poveda, J.
Gómez, D.
Hotza, D.
Escobar, J.
Ávila, A.
Poveda, J.
Gómez, D.
Hotza, D.
Escobar, J.
author Ávila, A.
Poveda, J.
Gómez, D.
Hotza, D.
Escobar, J.
spellingShingle Ávila, A.
Poveda, J.
Gómez, D.
Hotza, D.
Escobar, J.
Materials Science Forum
Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics
General Materials Science
author_sort ávila, a.
spelling Ávila, A. Poveda, J. Gómez, D. Hotza, D. Escobar, J. 1662-9752 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science http://dx.doi.org/10.4028/www.scientific.net/msf.727-728.769 <jats:p>Solid oxide fuel cells (SOFCs) have emerged as an efficient way to transform chemical energy into electrical energy. However, a major disadvantage of this technology is related to the high temperatures required for SOFC operation. In this way, new materials are necessary to maintain the electrical properties of the cell at intermediate temperatures. Based on these ideas, it is necessary to study both the structural variation of the cells components at different temperatures and their electrochemical behavior. In this work, a crystallographic characterization is presented, which was performed in a commercial SOFC cell using X-ray diffraction (XRD). An equivalent linear electrical model to predict SOFC losses is developed as well. Keywords: Solid oxide fuel cells (SOFCs); AC impedance; Electrochemical impedance spectroscopy (EIS); Equivalent circuit models.</jats:p> Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach Materials Science Forum
doi_str_mv 10.4028/www.scientific.net/msf.727-728.769
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Technik
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series Materials Science Forum
source_id 49
title Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_unstemmed Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_full Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_fullStr Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_full_unstemmed Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_short Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_sort characterization of sofcs: a crystallographic analysis and first steps towards an impedance spectroscopy approach
topic Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics
General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/msf.727-728.769
publishDate 2012
physical 769-774
description <jats:p>Solid oxide fuel cells (SOFCs) have emerged as an efficient way to transform chemical energy into electrical energy. However, a major disadvantage of this technology is related to the high temperatures required for SOFC operation. In this way, new materials are necessary to maintain the electrical properties of the cell at intermediate temperatures. Based on these ideas, it is necessary to study both the structural variation of the cells components at different temperatures and their electrochemical behavior. In this work, a crystallographic characterization is presented, which was performed in a commercial SOFC cell using X-ray diffraction (XRD). An equivalent linear electrical model to predict SOFC losses is developed as well. Keywords: Solid oxide fuel cells (SOFCs); AC impedance; Electrochemical impedance spectroscopy (EIS); Equivalent circuit models.</jats:p>
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author Ávila, A., Poveda, J., Gómez, D., Hotza, D., Escobar, J.
author_facet Ávila, A., Poveda, J., Gómez, D., Hotza, D., Escobar, J., Ávila, A., Poveda, J., Gómez, D., Hotza, D., Escobar, J.
author_sort ávila, a.
container_start_page 769
container_title Materials Science Forum
container_volume 727-728
description <jats:p>Solid oxide fuel cells (SOFCs) have emerged as an efficient way to transform chemical energy into electrical energy. However, a major disadvantage of this technology is related to the high temperatures required for SOFC operation. In this way, new materials are necessary to maintain the electrical properties of the cell at intermediate temperatures. Based on these ideas, it is necessary to study both the structural variation of the cells components at different temperatures and their electrochemical behavior. In this work, a crystallographic characterization is presented, which was performed in a commercial SOFC cell using X-ray diffraction (XRD). An equivalent linear electrical model to predict SOFC losses is developed as well. Keywords: Solid oxide fuel cells (SOFCs); AC impedance; Electrochemical impedance spectroscopy (EIS); Equivalent circuit models.</jats:p>
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imprint_str_mv Trans Tech Publications, Ltd., 2012
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physical 769-774
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publisher Trans Tech Publications, Ltd.
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series Materials Science Forum
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spelling Ávila, A. Poveda, J. Gómez, D. Hotza, D. Escobar, J. 1662-9752 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science http://dx.doi.org/10.4028/www.scientific.net/msf.727-728.769 <jats:p>Solid oxide fuel cells (SOFCs) have emerged as an efficient way to transform chemical energy into electrical energy. However, a major disadvantage of this technology is related to the high temperatures required for SOFC operation. In this way, new materials are necessary to maintain the electrical properties of the cell at intermediate temperatures. Based on these ideas, it is necessary to study both the structural variation of the cells components at different temperatures and their electrochemical behavior. In this work, a crystallographic characterization is presented, which was performed in a commercial SOFC cell using X-ray diffraction (XRD). An equivalent linear electrical model to predict SOFC losses is developed as well. Keywords: Solid oxide fuel cells (SOFCs); AC impedance; Electrochemical impedance spectroscopy (EIS); Equivalent circuit models.</jats:p> Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach Materials Science Forum
spellingShingle Ávila, A., Poveda, J., Gómez, D., Hotza, D., Escobar, J., Materials Science Forum, Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach, Mechanical Engineering, Mechanics of Materials, Condensed Matter Physics, General Materials Science
title Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_full Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_fullStr Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_full_unstemmed Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_short Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
title_sort characterization of sofcs: a crystallographic analysis and first steps towards an impedance spectroscopy approach
title_unstemmed Characterization of SOFCS: A Crystallographic Analysis and First Steps towards an Impedance Spectroscopy Approach
topic Mechanical Engineering, Mechanics of Materials, Condensed Matter Physics, General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/msf.727-728.769