Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique
A 500 nm thick yttria-doped barium zirconate (BZY) proton conducting electrolyte film, fabricated via a low-cost and high-throughput chemical solution deposition (CSD) technique, was sintered at a remarkably low temperature of 1000 °C, which is much lower than the typical solid state sintering tempe...
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sg-ntu-dr.10356-860742020-03-07T13:19:20Z Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique Biswas, Mridula Xie, Hanlin Baek, Jong Dae Su, Pei-Chen School of Mechanical and Aerospace Engineering Chemical solution deposition Thin film A 500 nm thick yttria-doped barium zirconate (BZY) proton conducting electrolyte film, fabricated via a low-cost and high-throughput chemical solution deposition (CSD) technique, was sintered at a remarkably low temperature of 1000 °C, which is much lower than the typical solid state sintering temperature of minimum 1300 °C. Therefore, the detrimental issues, commonly encountered in solid state sintering, such as barium evaporation and phase separation, were not observed. Gas-tightness of the BZY film was confirmed by 8 h of stable open circuit voltage (OCV) at 1.08 V from a button fuel cell with NiO-BZY anode substrate and LSCF cathode. The application of the film is aimed at the electrolytes of intermediate to low temperature solid oxide fuel cells (SOFCs). MOE (Min. of Education, S’pore) 2017-10-19T09:08:55Z 2019-12-06T16:15:29Z 2017-10-19T09:08:55Z 2019-12-06T16:15:29Z 2017 Journal Article Biswas, M., Xie, H., Baek, J. D., & Su, P.-C. (2017). Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique. Journal of the European Ceramic Society, 37(8), 2997-3001. 0955-2219 https://hdl.handle.net/10356/86074 http://hdl.handle.net/10220/43934 10.1016/j.jeurceramsoc.2017.02.059 en Journal of the European Ceramic Society © 2017 Elsevier |
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Chemical solution deposition Thin film |
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Chemical solution deposition Thin film Biswas, Mridula Xie, Hanlin Baek, Jong Dae Su, Pei-Chen Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique |
| description |
A 500 nm thick yttria-doped barium zirconate (BZY) proton conducting electrolyte film, fabricated via a low-cost and high-throughput chemical solution deposition (CSD) technique, was sintered at a remarkably low temperature of 1000 °C, which is much lower than the typical solid state sintering temperature of minimum 1300 °C. Therefore, the detrimental issues, commonly encountered in solid state sintering, such as barium evaporation and phase separation, were not observed. Gas-tightness of the BZY film was confirmed by 8 h of stable open circuit voltage (OCV) at 1.08 V from a button fuel cell with NiO-BZY anode substrate and LSCF cathode. The application of the film is aimed at the electrolytes of intermediate to low temperature solid oxide fuel cells (SOFCs). |
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School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Biswas, Mridula Xie, Hanlin Baek, Jong Dae Su, Pei-Chen |
| format |
Article |
| author |
Biswas, Mridula Xie, Hanlin Baek, Jong Dae Su, Pei-Chen |
| author_sort |
Biswas, Mridula |
| title |
Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique |
| title_short |
Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique |
| title_full |
Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique |
| title_fullStr |
Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique |
| title_full_unstemmed |
Gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique |
| title_sort |
gas-tight yttria-doped barium zirconate thin film electrolyte via chemical solution deposition technique |
| publishDate |
2017 |
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https://hdl.handle.net/10356/86074 http://hdl.handle.net/10220/43934 |
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1681039265664860160 |