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MIXED IONIC-ELECTRONIC CONDUCTING ELECTROLYTES: PARTIAL CURRENTS AND DEFECT DISTRIBUTION

机译：混合离子导电性电解质：部分电流和缺陷分布

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Mixed ionic-electronic conductivity in solid electrolytes gives rise to a partial internal electronic short circuit in addition to the normal ionic current. I-V characteristics and electrode overpotentials of fuel cells with mixed conducting Ce_(0.8)Sm_(0.2)O_(1.9) electrolytes in the temperature range of 873 K to 1073 K are presented. These measurements are used together with electrical conductivity and nonstoichiometry data to calculate the partial ionic and electronic currents inside the electrolyte. The defect distribution across the electrolyte is shown as a function of the fuel cell operating conditions.rnThe ratio of ionic to electronic current can be controlled by the proper choice of electrodes, the electrolyte thickness, and the applied cell voltage.

机译：固体电解质中混合的离子电子电导率除了正常的离子电流外，还会引起部分内部电子短路。提出了在873 K至1073 K温度范围内具有混合导电Ce_（0.8）Sm_（0.2）O_（1.9）电解质的燃料电池的I-V特性和电极超电势。这些测量值与电导率和非化学计量数据一起使用，以计算电解质内部的部分离子电流和电子电流。电解质中的缺陷分布显示为燃料电池工作条件的函数。离子电流与电子电流的比率可以通过适当选择电极，电解质厚度和施加的电池电压来控制。

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来源
《Solid oxide fuel cells(SOFC-V)》|1997年|1011-1020|共10页
会议地点 Aachen(DE);Aachen(DE)
作者
M. Goedickemeier; D. Schneider; L.J. Gauckler;
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作者单位

ETH-Zuerich, Dept. of Materials, Nonmetallic Materials Swiss Federal Institute of Technology, CH-8092 Zurich, Switzerland;

ETH-Zuerich, Dept. of Materials, Nonmetallic Materials Swiss Federal Institute of Technology, CH-8092 Zurich, Switzerland;

ETH-Zuerich, Dept. of Materials, Nonmetallic Materials Swiss Federal Institute of Technology, CH-8092 Zurich, Switzerland;

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原文格式 PDF
正文语种 eng
中图分类电化学、电解、磁化学;
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MIXED IONIC-ELECTRONIC CONDUCTING ELECTROLYTES: PARTIAL CURRENTS AND DEFECT DISTRIBUTION

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