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Electrical Conducting Properties of LSF-based Composites as an Interconnection of Tubular Type of Solid Oxide Fuel Cells

机译：管状固体氧化物燃料电池互连的基于LSF的复合材料的导电性能

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We investigated La_(0.8)Sr_(0.2)FeO_(3-δ) (LSF)-based composite materials as the interconnection for tubular SOFCs. LSF is a mixed ionic and electronic (hole) conducting material and thus shows low electrical conductivity in reducing (H_2) atmosphere. However, composite materials with LSF and ceria show moderate electrical conductivity by electronic leakage current through doped ceria and LSF. LSF-GDC composite and LSF layers were successfully deposited on NiO-YSZ anode substrate by conventional co-firing process. The area specific resistance of LSF/LSF-GDC bilayer on Ni-YSZ measured in air//H_2 condition was initially ～50 mΩ cm~2.

机译：我们研究了基于La_（0.8）Sr_（0.2）FeO_（3-δ）（LSF）的复合材料作为管状SOFC的互连体。 LSF是离子和电子（空穴）的混合导电材料，因此在还原（H_2）气氛中显示出低电导率。然而，具有LSF和二氧化铈的复合材料由于通过掺杂的二氧化铈和LSF的电子泄漏电流而显示出适度的导电性。 LSF-GDC复合材料和LSF层通过常规共烧工艺成功沉积在NiO-YSZ阳极基板上。在空气// H_2条件下测得的LSF / LSF-GDC双层膜在Ni-YSZ上的比电阻最初为〜50mΩcm〜2。

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《International Symposium on Solid Oxide Fuel Cells》|2015年|1727-1732|共6页
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J. H. Yu; H. L. Lee; H. C. Shin; S. Cho; J. H. Joo; C. -Y. Yoo;
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Electrical Conducting Properties of LSF-based Composites as an Interconnection of Tubular Type of Solid Oxide Fuel Cells

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