DIFFUSION PROCESSES BETWEEN THE BARRIER CATHODIC LAYER AND THE ELECTROLYTE OF A SOLID-OXIDE FUEL CELL

Ushkalov L. M.; Brodnikovskyi E. M.; Lysunenko N. O.; Brychevskyi M. M.; Vasyliv B. D.; Vasylev O. D.

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DIFFUSION PROCESSES BETWEEN THE BARRIER CATHODIC LAYER AND THE ELECTROLYTE OF A SOLID-OXIDE FUEL CELL

机译：屏障阴极层与固体氧化物燃料电池电解质之间的扩散过程

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We study the influence of reducing and oxidizing media on the mutual diffusion of chemical elements between the (Ce, Gd)O2-delta barrier (protective) cathodic layer and the YSZ electrolyte of a solid-oxide fuel cell in the course of annealing at 1400 degrees C. The results of the analysis of distributions of chemical elements in annealed specimens demonstrate that, in the case of annealing in the reducing medium, the diffusion of Ce and Gd into the electrolyte is more intense than the diffusion of Zr from the electrolyte into the protective layer. As compared with the oxidizing medium (air), the mutual diffusion of Ce, Gd, and Zr in the reducing (hydrogen-containing) medium is much more intense and the depth of their penetration is 1.5-3 times larger.

机译：我们研究了还原和氧化介质在1400℃退火过程中对（Ce，Gd）O2-δ阻挡层（保护）阴极层和YSZ电解质之间化学元素的相互扩散的影响退火样品中化学元素分布的分析结果表明，在还原介质中进行退火的情况下，Ce和Gd向电解液中的扩散比Zr从电解液向电解液中的扩散更强烈。保护层。与氧化性介质（空气）相比，Ce，Gd和Zr在还原性（含氢）介质中的相互扩散要强烈得多，其渗透深度是1.5-3倍。

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《Materials Science》 |2016年第4期|共8页
作者
Ushkalov L. M.; Brodnikovskyi E. M.; Lysunenko N. O.; Brychevskyi M. M.; Vasyliv B. D.; Vasylev O. D.;
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正文语种 eng
中图分类工程材料学;
关键词
deposition; half cell; solid-oxide fuel cell; microstructure; energy-dispersive X-ray analysis;

机译：沉积;半电池;固体氧化物燃料电池;微观结构;能量色散X射线分析;

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1. DIFFUSION PROCESSES BETWEEN THE BARRIER CATHODIC LAYER AND THE ELECTROLYTE OF A SOLID-OXIDE FUEL CELL [J] . Ushkalov L. M., Brodnikovskyi E. M., Lysunenko N. O., Materials Science . 2016,第4期

机译：屏障阴极层与固体氧化物燃料电池电解质之间的扩散过程
2. Study of oxygen diffusion in the cathode catalyst layer and gas diffusion layer for polymer electrolyte fuel cells with EIS [J] . Cruz-Manzo Samuel, Greenwood Paul Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry . 2021,第1期

机译：与EIS的阴极催化剂层和气体扩散层中的氧气扩散研究
3. Use of anode barrier layers in tubular solid-oxide fuel cells for robust operation on hydrocarbon fuels [J] . Wade A. Rosensteel, Sean M. Babiniec, Daniel D. Storjohann, Journal of power sources . 2012,第Maya1期

机译：阳极阻挡层在管状固体氧化物燃料电池中的使用，可在烃类燃料上稳定运行
4. In-plane Liquid Water Distribution at the Interface Between the Gas Diffusion Layer and Catalyst Layer in the Cathode of a Polymer Electrolyte Fuel Cell with a Hybrid Pattern Flow Field [C] . Hironori NAKAJIMA, Tatsumi KITAHARA, Yasutaka TAKAZONO, Polymer Electrolyte Fuel Cells Symposium;Meeting of The Electrochemical Society . 2012

机译：混合型流场的聚合物电解质燃料电池阴极中气体扩散层与催化剂层界面处的面内液态水分布
5. Tailored Electrospun Gas Diffusion Layers for Polymer Electrolyte Membrane Fuel Cells: Design and Durability [D] . Balakrishnan, Manojkumar . 2019

机译：用于聚合物电解质膜燃料电池的定制的Electromun气体扩散层：设计和耐用性
6. Nb5+-Doped SrCoO3−δ Perovskites as Potential Cathodes for Solid-Oxide Fuel Cells [O] . Vanessa Cascos, José Antonio Alonso, María Teresa Fernández-Díaz 2016

机译：掺Nb5 +的SrCoO3-δ钙钛矿作为固体氧化物燃料电池的潜在阴极
7. Highly Stable Sr‐Free Cobaltite‐Based Perovskite Cathodes Directly Assembled on a Barrier‐Layer‐Free Y 2 O 3 ‐ZrO 2 Electrolyte of Solid Oxide Fuel Cells [O] . Na Ai, Na Li, William D. A. Rickard, 2017

机译：高度稳定的SR无钴酸盐基钙钛矿阴极直接组装在无阻挡层的Y 2 O 3 -Zro 2电解质上的固体氧化物燃料电池

DIFFUSION PROCESSES BETWEEN THE BARRIER CATHODIC LAYER AND THE ELECTROLYTE OF A SOLID-OXIDE FUEL CELL

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