Nanostructure, Nanochemistry and Grain Boundary Conductivity of Yttria-doped Zirconia

A. Rizea; J.M. Raulot; C. Petot; G. Petot-Ervas; G. Baldinozzi

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Nanostructure, Nanochemistry and Grain Boundary Conductivity of Yttria-doped Zirconia

机译：氧化钇掺杂氧化锆的纳米结构，纳米化学和晶界电导率

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This work was directed at a comprehensive study of the role of the nanostructure and nanochemistry on the transport properties of yttria-stabilized zirconia. Alumina additions lead to a decrease of ogb when the samples have clean grain boundaries, while agb goes through a maximum in samples having glassy grain boundaries. The differences were attributed to the strong interaction between AI2O3 and SiO_2 impurities leading to a glassy phase depletion at the grain-boundaries, due to a change in wettability. Moreover, XPS analyses show that Si and Y segregate near these interfaces according to a kinetic demixing process, explaining why a faster cooling rate after sintering has a beneficial effect on σ_(gb).

机译：这项工作是针对纳米结构和纳米化学对氧化钇稳定的氧化锆的传输性质的作用的全面研究。当样品具有干净的晶界时，氧化铝的添加会导致ogb的降低，而具有玻璃质晶界的样品中abb的最大值达到最大值。差异归因于Al2O3和SiO_2杂质之间的强相互作用，由于润湿性的变化导致晶界处的玻璃态相耗尽。此外，XPS分析表明，根据动力学分解过程，Si和Y偏析在这些界面附近，这解释了为什么烧结后更快的冷却速率对σ_（gb）具有有益的影响。

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《Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena》 |2005年第0期|共4页
作者
A. Rizea; J.M. Raulot; C. Petot; G. Petot-Ervas; G. Baldinozzi;
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正文语种 eng
中图分类分析化学;
关键词
Nanostructured materials; transport properties; ionic conductivity;

机译：纳米结构材料;传输性能;离子电导率;

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1. Nanostructure, Nanochemistry and Grain Boundary Conductivity of Yttria-doped Zirconia [J] . A. Rizea, J.M. Raulot, C. Petot, Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2005,第0期

机译：氧化钇掺杂氧化锆的纳米结构，纳米化学和晶界电导率
2. Nanocrystalline, Ultra-Degradation-Resistant Zirconia: Its Grain Boundary Nanostructure and Nanochemistry [J] . Koji Matsui, Hidehiro Yoshida, Yuichi Ikuhara Scientific reports. . 2014,第1期

机译：纳米晶，抗超降解氧化锆：其晶界纳米结构和纳米化学
3. The influence of alumina on the microstructure and grain boundary conductivity of yttria-doped zirconia [J] . Rizea A., Chirlesan D., Petot C., Solid state ionics . 2002,第3a4期

机译：氧化铝对掺钇的氧化锆组织和晶界电导率的影响
4. Nanostructure, Nanochemistry and Grain Boundary Conductivity of Yttria-doped Zirconia [C] . A. Rizea, J.M. Raulot, C. Petot, European Materials Research Society Fall Meeting . 2005

机译：氧化钇氧化锆的纳米结构，纳米化学和晶界导电性
5. Grain boundary analysis and ionic conductivity of superplastic cubic zirconia for solid oxide fuel cell electrolytes. [D] . Martin, Michael Craig. 2003

机译：固体氧化物燃料电池电解质的超塑性立方氧化锆的晶界分析和离子电导率。
6. Nanocrystalline Ultra-Degradation-Resistant Zirconia: Its Grain Boundary Nanostructure and Nanochemistry [O] . Koji Matsui, Hidehiro Yoshida, Yuichi Ikuhara -1

机译：纳米晶抗超降解氧化锆：其晶界纳米结构和纳米化学
7. Nanocrystalline, Ultra-Degradation-Resistant Zirconia: Its Grain Boundary Nanostructure and Nanochemistry [O] . Koji Matsui, Hidehiro Yoshida, Yuichi Ikuhara 2014

机译：纳米晶体，超抗性抗氧化锆：其晶界纳米结构和纳米特化
8. Fundamental Questions About Superconductivity in the Pnictides (Former title: Electromagnetic and Nanostructural Studies of Rare Earth Copper Oxide Grain Boundaries Grain Boundaries in High Temperature Superconductors). [R] . Larbalestier, D. C., Gurevich, A. 2010

机译：关于pnictides超导电性的基本问题（前称：高温超导体中稀土氧化铜晶界晶界的电磁和纳米结构研究）。

Nanostructure, Nanochemistry and Grain Boundary Conductivity of Yttria-doped Zirconia

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