Understanding of CO_2 Electrochemical Reduction Reaction Process via High Temperature Solid Oxide Electrolysers

机译：通过高温固体氧化物电解槽了解CO_2电化学还原反应过程

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The CO_2 electrochemical reduction via SOEC was studied for a range of cathode materials in various operational conditions. The influences of the fuel gas composition, operating potential and temperature on cathode behavior are discussed and compared on different cathodes. The dissociative adsorption and surface diffusion of active species from CO_2 reduction reaction was found to contribute dominantly to the LSCM-based cathode working in CO_2-CO mixtures. Efforts were also made to obtain a high performance and durable cathode for high temperature CO_2 electrolyser by employing a gradient LSCM-YSZ cathode and by adopting wet impregnation in cathode preparation. The latter was to more effective in enhancing the cathode electro-catalytic activity. A competitive cathode to Ni-YSZ cermet was fabricated by infiltrating 0.5wt% Pd and GDC into porous LSCM and YSZ layers.

机译：研究了在各种操作条件下，通过SOEC对一系列阴极材料进行的CO_2电化学还原。讨论并比较了燃料气体组成，工作电势和温度对阴极性能的影响，并在不同阴极上进行了比较。发现CO_2还原反应中活性物质的解离吸附和表面扩散主要影响了在CO_2-CO混合物中基于LSCM的阴极的工作。还努力通过采用梯度LSCM-YSZ阴极并在阴极制备中采用湿法浸渍来获得用于高温CO_2电解槽的高性能耐用阴极。后者在增强阴极电催化活性方面更有效。通过渗透0.5wt％的Pd和GDC到多孔LSCM和YSZ层中，制成了与Ni-YSZ金属陶瓷竞争的阴极。

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《International Symposium on Solid Oxide Fuel Cells》|2015年|3535-3551|共17页
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X. Yue; J. T. S. Irvine;
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Understanding of CO_2 Electrochemical Reduction Reaction Process via High Temperature Solid Oxide Electrolysers

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