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ELECTROCHEMISTRY OF FUEL CELLS WITH H~+-ELECTROLYTE BASED ON BaCeO_3

机译：BaCeO_3的H〜+电解质燃料电池的电化学

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Electrochemistry of cellrnH_2, Ni-cermet / BaCe_(0.9)Nd_(0.1)O_(3-α) / La_(0.8)Sr_(0.2)MnO_3, air was studied at temperature range 700-900℃. U, I - curves, ohmic losses, electrodes polarisation, time stability of these values (under P_(max)) and contact resistance of electrode-elecrolyte boundaries were investigated.

机译：研究了细胞H_2，Ni-金属陶瓷/BaCe_(0.9)Nd_(0.1)O_(3-α)/La_(0.8)Sr_(0.2)MnO_3的电化学，研究了温度为700-900℃的空气。研究了U，I曲线，欧姆损耗，电极极化，这些值的时间稳定性（在P_（max）下）和电极-电解质边界的接触电阻。

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来源
《Solid oxide fuel cells(SOFC-V)》|1997年|348-357|共10页
会议地点 Aachen(DE);Aachen(DE)
作者
B. Kuzin; M. Perfiliev; V. Gorelov; S. Beresnev; Ju. Kleschev;
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作者单位

Institute of High Temperature Electrochemistry RAS, Ekaterinburg, Russia;

Institute of High Temperature Electrochemistry RAS, Ekaterinburg, Russia;

Institute of High Temperature Electrochemistry RAS, Ekaterinburg, Russia;

Institute of High Temperature Electrochemistry RAS, Ekaterinburg, Russia;

Institute of Technical Physics, Snezhinsk, Russia;

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正文语种 eng
中图分类电化学、电解、磁化学;
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1. Formation of Dense Electrolytes Based on BaCeo_3 and BaZro_3 for Application in Solid Oxide Fuel Cells: The Role of Solid-State Reactive Sintering [J] . D. A. Medvedev, A. A. Murashkina, A. K. Demin Review journal of chemistry . 2015,第3期

机译：基于BaCeo_3和BaZro_3的致密电解质的形成，用于固体氧化物燃料电池：固态反应烧结的作用
2. Analysis of the Anodic Reaction Mechanism for Solid Oxide Fuel Cell Using BaCeO_3 Electrolyte [J] . Michihisa Koyama, Ching-Ju Wen, Junichiro Otomo, 化学工学論文集 . 2003,第2期

机译：BaCeO_3电解质对固体氧化物燃料电池阳极反应机理的分析
3. Analysis of the Anodic Reaction Mechanism for Solid Oxide Fuel Cell Using BaCeO_3 Electrolyte [J] . Michihisa Koyama, Ching-Ju Wen, Junichiro Otomo, 化学工学論文集 . 2003,第2期

机译：使用Baceo_3电解质对固体氧化物燃料电池阳极反应机制的分析
4. ELECTROCHEMISTRY OF FUEL CELLS WITH H~+-ELECTROLYTE BASED ON BaCeO_3 [C] . International symposium on solid oxide fuel cells . 1997

机译：基于Baceo_3的H〜+电解液燃料电池电化学
5. Magnetic microparticles on electrodes: Polymer electrolyte membrane fuel cells, carbon monoxide oxidation, and transition metal complex electrochemistry. [D] . Gellett, Wayne L. 2004

机译：电极上的磁性微粒：聚合物电解质膜燃料电池，一氧化碳氧化和过渡金属配合物电化学。
6. Direct Enzymatic Glucose/O2 Biofuel Cell based on Poly-Thiophene Carboxylic Acid alongside Gold Nanostructures Substrates Derived through Bipolar Electrochemistry [O] . Fereshte Gholami, Aso Navaee, Abdollah Salimi, -1

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7. Modelling of electrochemistry and mass transport in polymer electrolyte membrane fuel cells, PEMFC [O] . Murgia Giovanni, Pisani Lorenzo, Valentini Maria, 2001

机译：高分子电解质膜燃料电池中电化学和传质建模PEMFC
8. Enhanced Ceria Solid Electrolyte Fuel Cell Development. Reduction of Electronic Conductivity Permits use of a Solid Ceria Electrolyte in High Efficiency High Power Density Fuel Cells at Temperatures Compatible with Metallic Cell Hardware. [R] . Maricle, D. L. 1990

机译：增强的二氧化铈固体电解质燃料电池开发。降低电子电导率允许在高效高功率密度燃料电池中使用固体氧化铈电解质，其温度与金属电池硬件兼容。

ELECTROCHEMISTRY OF FUEL CELLS WITH H~+-ELECTROLYTE BASED ON BaCeO_3

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