Ionic Conductivity of Zirconia-Scandia-Dysprosia Solid Electrolyte

机译：氧化锆-Scan-丁香固体电解质的离子电导率

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The effects of small additions of dysprosia (1, 1.5 and 2 mol%) to zirconia-10 mol% scandia were investigated by spectroscopic techniques. The main purpose of this work was to study the influence of the rare earth additive on the structural and electrical properties of the zirconia-scandia solid electrolyte. The compositions were prepared by solid state synthesis and the characterization techniques comprise X-ray diffraction, Raman spectroscopy and impedance spectroscopy. Fully stabilization of the cubic structure occurred for 2 mol% dysprosia addition. For lower additive contents the cubic reflections coexist with those of the β-rhombohedral phase. The additive was also found to inhibit the densification of the zirconia-scandia solid electrolyte. The activation energy for oxide ion conduction is 1.31 eV.

机译：通过光谱技术研究了向10 mol％氧化锆中少量添加异丁酮（1、1.5和2 mol％）的影响。这项工作的主要目的是研究稀土添加剂对氧化锆-氧化scan固体电解质的结构和电性能的影响。通过固态合成制备组合物，并且表征技术包括X射线衍射，拉曼光谱和阻抗光谱。添加2 mol％的异辛酯会完全稳定立方结构。对于较低的添加剂含量，立方反射与β-菱形面相共存。还发现该添加剂抑制氧化锆-scan质固体电解质的致密化。氧化物离子传导的活化能为1.31 eV。

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《Ionic and mixed conducting ceramics 9》|2014年|341-346|共6页
会议地点 Orlando FL(US)
作者
R. L. Grosso; E. N. S. Muccillo;
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Center of Materials Science and Technology, Energy and Nuclear Research Institute -IPEN, PO Box 11049, Pinheiros, S. Paulo 05422-970, SP, Brazil;

Center of Materials Science and Technology, Energy and Nuclear Research Institute -IPEN, PO Box 11049, Pinheiros, S. Paulo 05422-970, SP, Brazil;

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机译：锂离子dodensei kotai denkaishitsu no dodensei kojo kiko no kaimei。（锂固体电解质的离子传导性增强）。

Ionic Conductivity of Zirconia-Scandia-Dysprosia Solid Electrolyte

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