Masanori Ochi, N. Miyakawa, M. Minohara, K. Horiba, H. Kumigashira, T. Higuchi
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引用次数: 0
摘要
(cid:3)采用射频磁控溅射技术在Al 2o3(0001)衬底上制备了具有A -轴和c -轴取向的BaCe 0.80 Zr 0.10 Y 0.10 O - (BCZY)薄膜。溅射沉积过程中,a轴和c轴晶格常数随衬底温度的升高而减小。制备的BCZY薄膜具有Ce 4+ (4f0)和Ce 3+ (4f1l)的混合价态,高T亚基产生氧空位。电导率随tsub的增加而增加,但在400 ~ 600℃之间的中温区(IMT),电导率不依赖于氧分压。在LUMO水平上,BCZY薄膜的ce3 +态大于未观察到氧化离子导电的BCZY体陶瓷。这些结果表明,具有氧空位的BCZY薄膜具有固体氧化物燃料电池电解质所需的高氧化物离子导电性
Oxide Ion Conduction of BaCe0.80Zr0.10Y0.10O3-δ Thin Film with Oxygen Vacancies
(cid:3) A BaCe 0.80 Zr 0.10 Y 0.10 O 3- (BCZY) thin film with a - and c -axes orientations has been deposited on Al 2 O 3 (0001) substrates by Radio Frequency magnetron sputtering. The lattice constants of a and c -axes decrease with increasing the substrate temperature ( T sub ) during sputtering deposition. The as-prepared BCZY thin film has the mixed valence states of Ce 4+ (4 f 0 ) and Ce 3+ (4 f 1 L ) with oxygen vacancies created by high T sub . The electrical conductivity increases with increasing T sub , but it does not depend on oxygen partial pressure in the intermediate temperature (IMT) region between 400 and 600 C. The Ce 3+ state at the LUMO level of the BCZY thin film is larger than that of BCZY bulk ceramic in which oxide ion conduction has not been observed. These results indicate that the BCZY thin film with oxygen vacancies has the high oxide ion conduction, which is required for electrolytes of solid oxide fuel cells
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