Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology

Fuel Cell is an electrochemical cell that supports clean and alternative energy that is mushrooming nowadays. Being a device of clean energy production, highly efficient solid oxide fuel cells (SOFCs) are increasing in demands. It converts the chemical energy into electrical energy in an environ...

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Main Authors: Rahimi, N. F. M., Thirugnana, Sathiabama T., Ghoshal, S. K.
Format: Article
Published: J. Environ. Treat. Tech. 2020
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Online Access:http://eprints.utm.my/id/eprint/86778/
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.867782020-09-30T09:08:09Z http://eprints.utm.my/id/eprint/86778/ Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology Rahimi, N. F. M. Thirugnana, Sathiabama T. Ghoshal, S. K. QC Physics Fuel Cell is an electrochemical cell that supports clean and alternative energy that is mushrooming nowadays. Being a device of clean energy production, highly efficient solid oxide fuel cells (SOFCs) are increasing in demands. It converts the chemical energy into electrical energy in an environmentally-friendly way following green technology route. The SOFCs are one type of technology that has great promise to improve energy efficiency and to provide the society with clean and abundant energy. Yttria- stabilized zirconia (YSZ) is used as theelectrolyte in SOFC wherein its synthesis with controlled properties is important to obtain the highest energy efficiency. The overall characteristics of the YSZ thin-film electrolyte in the SOFC are determined by its structures and morphologies. Based on these factors, a series of YSZ thin films were deposited on the sapphirewafer substrateby the dip-coating method and sintered in the temperature range of 900 – 1500 °C. The temperature dependent structural and morphological attributes of such thin films were determined and the prepared samples were characterized using XRD, AFM and Raman spectroscopy. TheXRD patterns of the samples revealed the change in the crystallinity and phase, with an increase in the sintering temperatures while a tetragonal structurewas observed at 1300 °C. Furthermore, the Raman spectral analyses supported the XRD results. The AFM morphology analysis of the thin films showed an increase in the grain size from 132.25 to 995.2 nm. The observed temperature-dependent changes in the structures and morphological attributes of these films may be useful for achieving high ionic conductivity required for an efficient SOFC construction. J. Environ. Treat. Tech. 2020 Article PeerReviewed Rahimi, N. F. M. and Thirugnana, Sathiabama T. and Ghoshal, S. K. (2020) Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology. Journal of Environmental Treatment Techniques, 8 (2). pp. 604-609. ISSN 2309-1185
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic QC Physics
spellingShingle QC Physics
Rahimi, N. F. M.
Thirugnana, Sathiabama T.
Ghoshal, S. K.
Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology
description Fuel Cell is an electrochemical cell that supports clean and alternative energy that is mushrooming nowadays. Being a device of clean energy production, highly efficient solid oxide fuel cells (SOFCs) are increasing in demands. It converts the chemical energy into electrical energy in an environmentally-friendly way following green technology route. The SOFCs are one type of technology that has great promise to improve energy efficiency and to provide the society with clean and abundant energy. Yttria- stabilized zirconia (YSZ) is used as theelectrolyte in SOFC wherein its synthesis with controlled properties is important to obtain the highest energy efficiency. The overall characteristics of the YSZ thin-film electrolyte in the SOFC are determined by its structures and morphologies. Based on these factors, a series of YSZ thin films were deposited on the sapphirewafer substrateby the dip-coating method and sintered in the temperature range of 900 – 1500 °C. The temperature dependent structural and morphological attributes of such thin films were determined and the prepared samples were characterized using XRD, AFM and Raman spectroscopy. TheXRD patterns of the samples revealed the change in the crystallinity and phase, with an increase in the sintering temperatures while a tetragonal structurewas observed at 1300 °C. Furthermore, the Raman spectral analyses supported the XRD results. The AFM morphology analysis of the thin films showed an increase in the grain size from 132.25 to 995.2 nm. The observed temperature-dependent changes in the structures and morphological attributes of these films may be useful for achieving high ionic conductivity required for an efficient SOFC construction.
format Article
author Rahimi, N. F. M.
Thirugnana, Sathiabama T.
Ghoshal, S. K.
author_facet Rahimi, N. F. M.
Thirugnana, Sathiabama T.
Ghoshal, S. K.
author_sort Rahimi, N. F. M.
title Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology
title_short Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology
title_full Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology
title_fullStr Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology
title_full_unstemmed Yttria Stabilized Zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology
title_sort yttria stabilized zirconia thin film as solid oxide fuel cell electrolyte: temperature dependent structures and morphology
publisher J. Environ. Treat. Tech.
publishDate 2020
url http://eprints.utm.my/id/eprint/86778/
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