La3TaO7 derivatives with Weberite structure type: Possible electrolytes for solid oxide fuel cells and high temperature electrolysers

Nicolas Preux; Aurelie Rolle; Cindy Merlin

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La3TaO7 derivatives with Weberite structure type: Possible electrolytes for solid oxide fuel cells and high temperature electrolysers

机译：Weberite结构类型的La3TaO7衍生物：固体氧化物燃料电池和高温电解槽的可能电解质

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In this study, with the aim to enhance the ionic conduction of known structures by defect chemistry, the La2O3-Ta2O5 system was considered with a focus on the La3TaO7 phase whose structure is of Weberite type. In order to predict possible preferential substitution sites and substitution elements, atomistic simulation was used as a first approach. A solid solution La_(3-x)Sr_xTaO_(7-x/2) was confirmed by X-ray diffraction and Raman spectroscopy; it extends for a substitution ratio up to x = 0.15. Whereas La3TaO7 is a poor oxide ion conductor (σ_(700 °C) = 2 x 10~(-5)S.cm~(-1)), at 700 °C, its ionic conductivity is increased by more than one order of magnitude when 3.3% molar strontium is introduced in the structure (σ_(700 °C) = 2 x 10~(-4)S.cm~(-1)).

机译：在这项研究中，为了通过缺陷化学增强已知结构的离子传导，考虑了La2O3-Ta2O5体系，重点是结构为Weberite型的La3TaO7相。为了预测可能的优先取代位和取代元素，原子模拟被用作第一种方法。通过X射线衍射和拉曼光谱法确认固溶体La_（3-x）Sr_xTaO_（7-x / 2）。它可以扩展到x = 0.15的替代率。 La3TaO7是一种不良的氧化物离子导体（σ_（700°C）= 2 x 10〜（-5）S.cm〜（-1）），在700°C时，其离子电导率增加了一个数量级以上当在结构中引入3.3％摩尔锶时（σ_（700°C）= 2 x 10〜（-4）S.cm〜（-1））

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《Comptes Rendus Chimie》 |2010年第11期|共8页
作者
Nicolas Preux; Aurelie Rolle; Cindy Merlin;
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正文语种 eng
中图分类化学;
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Ceramics; Solid-state reactions; X-ray diffraction; Raman spectroscopy; Electrochemistry; Computer chemistry; Materials science;

机译：陶瓷;固相反应;X射线衍射;拉曼光谱;电化学;计算机化学;材料科学;

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1. La3TaO7 derivatives with Weberite structure type: Possible electrolytes for solid oxide fuel cells and high temperature electrolysers [J] . Nicolas Preux, Aurelie Rolle, Cindy Merlin Comptes Rendus Chimie . 2010,第11期

机译：Weberite结构类型的La3TaO7衍生物：固体氧化物燃料电池和高温电解槽的可能电解质
2. Processing temperature tuned interfacial microstructure and protonic and oxide ionic conductivities of well-sintered Sm0.2Ce0.8O1.9- Na2CO3 nanocomposite electrolytes for intermediate temperature solid oxide fuel cells [J] . Li Chuanming, Zeng Yanwei, Wang Zhentao, Journal of power sources . 2017,第auga31期

机译：中温固体氧化物燃料电池用Sm0.2Ce0.8O1.9- Na2CO3纳米复合电解质的烧结温度和温度调节界面微观结构以及质子和氧化物离子电导率
3. Fabrication and characterization of large-size electrolyte anode bilayer structures for low-temperature solid oxide fuel cell stack based on gadolinia-doped ceria electrolyte [J] . Q.L. Liu, S.H. Chan, C.J. Fu, Electrochemistry communications . 2009,第4期

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4. Effect of the current polarisation on the versatility of SrCoO3-? derivatives as electrodes for solid oxide fuel cells and electrolysers [C] . D. Perez-Coll, J. A. Alonso, S. Skinner European SOCF SOE Forum . 2014

机译：电流极化对SRCOO3-的多功能性的影响衍生物作为固体氧化物燃料电池和电解器的电极
5. Ionic conduction in fluorite-structured solid electrolytes used in solid oxide fuel cells: The role of the grain boundaries. [D] . Avila-Paredes, Hugo Joaquin. 2009

机译：固体氧化物燃料电池中使用的萤石结构固体电解质中的离子传导：晶界的作用。
6. Enhanced Oxygen Electrocatalysis in HeterostructuredCeria Electrolytes for Intermediate-Temperature Solid Oxide Fuel Cells [O] . Tao Hong, *, Yanxiang Zhang, 2018

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7. La3TaO7 derivatives with Weberite structure type: Possible electrolytes for solid oxide fuel cells and high temperature electrolysers [O] . Preux Nicolas, Rolle Aurélie, Merlin Cindy, 2010

机译：Weberite结构类型的La3TaO7衍生物：可能用于固体氧化物燃料电池和高温电解槽的电解质

La3TaO7 derivatives with Weberite structure type: Possible electrolytes for solid oxide fuel cells and high temperature electrolysers

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