Correlation of defect structure and ionic conductivity in delta-phase solid solutions in the Bi3NbO7-Bi3YO6 system

Abrahams I; Kozanecka-Szmigiel A; Krok F; Wrobel W; Chan SCM; Dygas JR

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Correlation of defect structure and ionic conductivity in delta-phase solid solutions in the Bi3NbO7-Bi3YO6 system

机译：Bi3NbO7-Bi3YO6体系中δ相固溶体中缺陷结构与离子电导率的关系

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Defect structure and conductivity behaviour are discussed in the solid solution Bi3Nb1-xYxO7-x(0.0 <= x <= 1.0). Investigations were carried out using a combination of ac impedance spectroscopy and powder X-ray and neutron diffraction. Low temperature conductivity and activation energy both increase as a function of x. The former is attributed to an increase in oxide ion vacancy concentration, whereas the latter is due a redistribution of oxide ion vacancies as determined by neutron diffraction measurements. The defect structures at room temperature and 800 degrees C are presented. Curvature in Arrhenius plots of conductivity throughout the composition range is associated with a temperature dependent redistribution of oxide ions. (c) 2006 Elsevier B.V. All rights reserved.

机译：在固溶体Bi3Nb1-xYxO7-x（0.0 <= x <= 1.0）中讨论了缺陷结构和导电行为。研究是使用交流阻抗谱，粉末X射线和中子衍射相结合进行的。低温电导率和活化能均随x的增加而增加。前者归因于氧化物离子空位浓度的增加，而后者归因于通过中子衍射测量确定的氧化物离子空位的重新分布。介绍了室温和800摄氏度下的缺陷结构。在整个成分范围内，电导率在阿伦尼乌斯曲线上的曲率与氧化物离子的温度依赖性重新分布有关。（c）2006 Elsevier B.V.保留所有权利。

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《Solid state ionics》 |2006年第25期|共5页
作者
Abrahams I; Kozanecka-Szmigiel A; Krok F; Wrobel W; Chan SCM; Dygas JR;
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正文语种 eng
中图分类固体物理学;
关键词
bismuth oxide; fluorite; defect structure; neutron diffraction; impedance spectroscopy; CUBIC BISMUTH OXIDES; ELECTROLYTES; BI2O3-NB2O5; CONDUCTORS; BI2O3;

机译：氧化铋;萤石;缺陷结构;中子衍射;阻抗谱;立方铋氧化物;电解质;BI2O3-NB2O5;导体;BI2O3;

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1. Correlation of defect structure and ionic conductivity in delta-phase solid solutions in the Bi3NbO7-Bi3YO6 system [J] . Abrahams I, Kozanecka-Szmigiel A, Krok F, Solid state ionics . 2006,第19a25期

机译：Bi3NbO7-Bi3YO6体系中δ相固溶体中缺陷结构与离子电导率的关系
2. Ionic conductivity, phase composition, and local defect structure of ZrO2-Gd(2)O(3)system solid solution crystals [J] . Agarkova Ekaterina A., Borik Mikhail A., Volkova Tatiana V., Journal of solid state electrochemistry . 2019,第9期

机译：离子电导率，相组合物和ZrO2-Gd（2）O（3）系统固溶晶体的局部缺陷结构
3. Defect structure of the mixed ionic-electronic conducting Sr[Ti,Fe]O x solid-solution system - Change in iron oxidation states and defect complexation [J] . Drahus M.D., Jakes P., Erdem E., Solid state ionics . 2011,第1期

机译：混合离子-电子导电Sr [Ti，Fe] O x固溶体系统的缺陷结构-铁氧化态的变化和缺陷络合
4. CORRELATION OF DEFECT STRUCTURE AND IONIC CONDUCTIVITY IN FLUORITE SOLID SOLUTIONS IN THE PSEUDO-BINARY SYSTEM Bi2O3-YNbO4 [C] . XI LIU, ISAAC ABRAHAMS, MARCIN HOLDYNSKI, Proceedings of the 12th Asian conference on solid state ionics : Fundamental researches and technological applications . 2010

机译：伪二元体系Bi2O3-YNbO4的氟离子固体溶液中缺陷结构和离子电导率的相关性
5. Defect structure and DC electrical conductivity of titanium dioxide-niobium dioxide solid solution. [D] . Song, Inho. 1990

机译：二氧化钛-二氧化铌固溶体的缺陷结构和直流电导率。
6. Effect of High Ammonium Salt Concentration and Temperature on the Structure Morphology and Ionic Conductivity of Proton-Conductor Solid Polymer Electrolytes Based PVA [O] . Maryam A. M. Saeed, Omed Gh. Abdullah 2020

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7. Crystal structure and superconductivity of the solid solution system SmxBa1-xCuOy. [O] . Hiroaki Toda, Yutaka Ueda, Koji Kosuge 1988

机译：固溶体系SMXBA1-XCUOY的晶体结构和超导性。
8. Ionic Conductivity and Defect Structure of Fluorite-Type Solid Solutions Basub(1-X) Usub(X)Fsub(2+2X) [R] . Ouwerkerk, M. 1986

机译：萤石型固溶体Basub（1-X）Usub（X）Fsub（2 + 2X）的离子导电性和缺陷结构

Correlation of defect structure and ionic conductivity in delta-phase solid solutions in the Bi3NbO7-Bi3YO6 system

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