PHYSICAL ORIGIN OF THE INTRINSIC GRAIN-BOUNDARY RESISTIVITY OF STABILIZED-ZIRCONIA - ROLE OF THE SPACE-CHARGE LAYERS

Guo X.

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PHYSICAL ORIGIN OF THE INTRINSIC GRAIN-BOUNDARY RESISTIVITY OF STABILIZED-ZIRCONIA - ROLE OF THE SPACE-CHARGE LAYERS

机译：稳定氧化锆的本征晶界电阻率的物理成因-空间电荷层的作用

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According to a space-charge theory analysis, the space-charge potential of YSZ is negative, which corresponds to an Y-Zr' segregation and an V-O(..) depletion in the space-charge layers. Owing to the highly disordered structure of the grain-boundary interfaces, the resistance of the interfaces is considered to be negligible with respect to that of the space-charge layers, the intrinsic grain-boundary resistivity in stabilized-ZrO2 was thus considered to originate from the V-O(..) depletion in the space-charge layers, and an intrinsic grain-boundary resistivity model was developed. With this model, all the grain-boundary resistivity behaviors in stabilized-ZrO2 with high-purity described in the published litteratures were satisfactorily explained. [References: 24]

机译：根据空间电荷理论分析，YSZ的空间电荷电势为负，这对应于空间电荷层中的Y-Zr'偏析和V-O（..）耗尽。由于晶界界面的高度无序结构，界面电阻相对于空间电荷层的电阻可忽略不计，因此认为稳定ZrO2中的固有晶界电阻率源自空间电荷层中的VO（..）耗尽，建立了本征晶界电阻率模型。使用该模型，令人满意地解释了已发表文献中描述的高纯度稳定ZrO2中的所有晶界电阻率行为。 [参考：24]

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《Solid state ionics》 |1995年第4期|共8页
作者
Guo X.;
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正文语种 eng
中图分类固体物理学;
关键词
Space charge; Grain-boundary resistivity; Zirconia; Solute segregation; Plausible concepts; Conductivity; Electrolytes; Sufficient; Ceramics;

机译：空间电荷;晶界电阻率;锆石;溶质偏析;可行概念;电导率;电解质;充足;陶瓷;

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1. PHYSICAL ORIGIN OF THE INTRINSIC GRAIN-BOUNDARY RESISTIVITY OF STABILIZED-ZIRCONIA - ROLE OF THE SPACE-CHARGE LAYERS [J] . Guo X. Solid state ionics . 1995,第3a4期

机译：稳定氧化锆的本征晶界电阻率的物理起源-空间电荷层的作用
2. Grain-Boundary Characterization in a Nonstoichiometric Fine-Grained Magnesium Aluminate Spinel: Effects of Defect Segregation at the Space-Charge Layers [J] . Nicolas Nuns, Franck Beclin, Jacques Crampon Journal of the American Ceramic Society . 2009,第4期

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PHYSICAL ORIGIN OF THE INTRINSIC GRAIN-BOUNDARY RESISTIVITY OF STABILIZED-ZIRCONIA - ROLE OF THE SPACE-CHARGE LAYERS

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