Formation, sintering, and electrical conductivity of perovskite Sm(Cr1−xMgx)O3 (0?x?0.23) prepared by the hydrazine method |
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| Authors: | Ken Hirota |
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| Affiliation: | Department of Molecular Science and Technology, Faculty of Engineering, Doshisha University, Kyo-Tanabe, Kyoto 610-0321, Japan |
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| Abstract: | The presence of SmCrO4 is experimentally established. In Mg2+-substituted SmCrO3, single-phase perovskite Sm(Cr1−xMgx)O3, where x=0-0.23, are formed at ∼830°C by decomposition of Sm(Cr1−xMgx)O4 which crystallizes at 530-570°C from amorphous materials prepared by the hydrazine method. Sm(Cr1−xMgx)O3 solid solution powders consisting of submicrometer-size particles are sinterable; dense materials can be fabricated by sintering for 2 h at 1700°C in air. The relative densities, grain sizes, and electrical conductivities increase with increased Mg2+ content. Sm(Cr0.77Mg0.23)O3 materials exhibit an excellent direct current electrical conductivity of 2.2×103 S m−1 at 1000°C. |
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| Keywords: | Samarium Chromite Perovskite Solid solution Hydrazine Electrical conductivity |
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