Molten salt synthesis of La^sub 0.8^Sr^sub 0.2^MnO3 powders for SOFC cathode electrode
For La^sub 0.8^Sr^sub 0.2^MnO3 (LSM) perovskite, used as the cathode material for solid oxide fuel cells (SOFC), it is known that the formation of a triple-phase-boundary is restrained due to the formation of a second phase at the YSZ/electrode interface at high temperature. To decrease the 2^sup nd...
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| Veröffentlicht in: | Metals and materials international 2012-08, Vol.18 (4), p.723 |
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| creator | Gu, Sin-il Shin, Hyo-soon Hong, Youn-woo Yeo, Dong-hun Kim, Jong-hee Nahm, Sahn Yoon, Sang-ok |
| description | For La^sub 0.8^Sr^sub 0.2^MnO3 (LSM) perovskite, used as the cathode material for solid oxide fuel cells (SOFC), it is known that the formation of a triple-phase-boundary is restrained due to the formation of a second phase at the YSZ/electrode interface at high temperature. To decrease the 2^sup nd^ phase, lowering the sintering temperature has been used. LSM powder was synthesized by molten salt synthesis method to control its particle size, shape, and agglomeration. We have characterized the phase formation, particle size, shape, and sintering behavior of LSM in the synthesis using the variation of KCl, LiCl, KF and its mixed salts as raw materials. In the case of KCl and KCl-KF salts, the particle size and shape of the LSM was well controlled and synthesized. However, in the case of LiCl and KCl-LiCl salts, LiMnO^sub x^ as 2^sup nd^ phase and LSM were synthesized simultaneously. In the case of the mixed salt of KCl-KF, the growth mechanism of the LSM particle was changed from 'diffusion-controlled' to 'reaction-controlled' according to the amount of mixed salt. The sintering temperature can be decreased below 1000 °C by using the synthesized LSM powder.[PUBLICATION ABSTRACT] |
| doi_str_mv | 10.1007/s12540-012-4009-8 |
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To decrease the 2^sup nd^ phase, lowering the sintering temperature has been used. LSM powder was synthesized by molten salt synthesis method to control its particle size, shape, and agglomeration. We have characterized the phase formation, particle size, shape, and sintering behavior of LSM in the synthesis using the variation of KCl, LiCl, KF and its mixed salts as raw materials. In the case of KCl and KCl-KF salts, the particle size and shape of the LSM was well controlled and synthesized. However, in the case of LiCl and KCl-LiCl salts, LiMnO^sub x^ as 2^sup nd^ phase and LSM were synthesized simultaneously. In the case of the mixed salt of KCl-KF, the growth mechanism of the LSM particle was changed from 'diffusion-controlled' to 'reaction-controlled' according to the amount of mixed salt. The sintering temperature can be decreased below 1000 °C by using the synthesized LSM powder.[PUBLICATION ABSTRACT]</description><identifier>ISSN: 1598-9623</identifier><identifier>EISSN: 2005-4149</identifier><identifier>DOI: 10.1007/s12540-012-4009-8</identifier><language>eng</language><publisher>Seoul: Springer Nature B.V</publisher><ispartof>Metals and materials international, 2012-08, Vol.18 (4), p.723</ispartof><rights>The Korean Institute of Metals and Materials and Springer Netherlands 2012</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27901,27902</link.rule.ids></links><search><creatorcontrib>Gu, Sin-il</creatorcontrib><creatorcontrib>Shin, Hyo-soon</creatorcontrib><creatorcontrib>Hong, Youn-woo</creatorcontrib><creatorcontrib>Yeo, Dong-hun</creatorcontrib><creatorcontrib>Kim, Jong-hee</creatorcontrib><creatorcontrib>Nahm, Sahn</creatorcontrib><creatorcontrib>Yoon, Sang-ok</creatorcontrib><title>Molten salt synthesis of La^sub 0.8^Sr^sub 0.2^MnO3 powders for SOFC cathode electrode</title><title>Metals and materials international</title><description>For La^sub 0.8^Sr^sub 0.2^MnO3 (LSM) perovskite, used as the cathode material for solid oxide fuel cells (SOFC), it is known that the formation of a triple-phase-boundary is restrained due to the formation of a second phase at the YSZ/electrode interface at high temperature. To decrease the 2^sup nd^ phase, lowering the sintering temperature has been used. LSM powder was synthesized by molten salt synthesis method to control its particle size, shape, and agglomeration. We have characterized the phase formation, particle size, shape, and sintering behavior of LSM in the synthesis using the variation of KCl, LiCl, KF and its mixed salts as raw materials. In the case of KCl and KCl-KF salts, the particle size and shape of the LSM was well controlled and synthesized. However, in the case of LiCl and KCl-LiCl salts, LiMnO^sub x^ as 2^sup nd^ phase and LSM were synthesized simultaneously. In the case of the mixed salt of KCl-KF, the growth mechanism of the LSM particle was changed from 'diffusion-controlled' to 'reaction-controlled' according to the amount of mixed salt. 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To decrease the 2^sup nd^ phase, lowering the sintering temperature has been used. LSM powder was synthesized by molten salt synthesis method to control its particle size, shape, and agglomeration. We have characterized the phase formation, particle size, shape, and sintering behavior of LSM in the synthesis using the variation of KCl, LiCl, KF and its mixed salts as raw materials. In the case of KCl and KCl-KF salts, the particle size and shape of the LSM was well controlled and synthesized. However, in the case of LiCl and KCl-LiCl salts, LiMnO^sub x^ as 2^sup nd^ phase and LSM were synthesized simultaneously. In the case of the mixed salt of KCl-KF, the growth mechanism of the LSM particle was changed from 'diffusion-controlled' to 'reaction-controlled' according to the amount of mixed salt. 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| title | Molten salt synthesis of La^sub 0.8^Sr^sub 0.2^MnO3 powders for SOFC cathode electrode |
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