镍对用于固体氧化物电池的铈基电极表面反应的影响

IF 8.1 2区工程技术 Q1 CHEMISTRY, PHYSICAL Journal of Power Sources Pub Date : 2024-11-02 DOI:10.1016/j.jpowsour.2024.235621

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引用次数: 0

摘要

多年来，作为固体氧化物电池燃料电极的镍/铈复合材料一直是研究和开发的重点。铈表面的混合离子电子传导性和电催化活性提高了性能和耐用性，甚至可以制成单相铈燃料电极。以往的研究表明，少量的镍能极大地改善后者的性能。这就提出了一个问题：单相铈燃料电极在 600-700 °C的温度下工作时，能在多大程度上提供合适的性能？纳米颗粒是通过渗入硝酸镍溶液和随后的热退火生成的。采用阻抗光谱法、DRT 分析法和传输线建模法评估了不同装饰铈表面的电荷转移电阻。分析表明，在 700 °C 时，镍对极化电阻（f = 30 mHz ... 10 kHz）的影响很大，从 0.196 Ω⋅cm2 降至 0.05 Ω cm2，更具体地说，GDC 表面的电荷转移电阻降低了两个数量级。

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Impact of nickel on the surface reaction in ceria-based electrodes for solid oxide cells

Nickel/ceria composites as fuel electrodes in solid oxide cells have been in focus of research and development for many years. The mixed ionic electronic conductivity and the electrocatalytic activity of the ceria surface improve performance and durability and enable even single-phase ceria fuel electrodes. Previous studies have shown that the performance of the latter is strongly improved by small amounts of nickel. This raises the question to what extend a single-phase ceria fuel electrode is able to provide a suitable performance during an operation at 600–700 °C and how this is affected by nickel.

In this study, gadolinia doped ceria fuel electrodes, whose surfaces were decorated with different amounts of nickel-nanoparticles, are investigated. The nanoparticles were generated by infiltration of nickel nitrate solutions and subsequent thermal annealing. Impedance spectroscopy, DRT-analysis and a transmission line modeling approach were employed to evaluate the charge transfer resistance of differently decorated ceria surfaces. The analysis revealed a strong impact of nickel on the polarization resistance (f = 30 mHz … 10 kHz) improving from 0.196 Ω⋅cm² to 0.05 Ω cm² at 700 °C or more specifically a reduction of the charge transfer resistance at the GDC-surface of up to two orders of magnitude.

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来源期刊

Journal of Power Sources 工程技术-电化学

CiteScore

16.40

自引率

6.50%

发文量

1249

审稿时长

36 days

期刊介绍： The Journal of Power Sources is a publication catering to researchers and technologists interested in various aspects of the science, technology, and applications of electrochemical power sources. It covers original research and reviews on primary and secondary batteries, fuel cells, supercapacitors, and photo-electrochemical cells. Topics considered include the research, development and applications of nanomaterials and novel componentry for these devices. Examples of applications of these electrochemical power sources include: • Portable electronics • Electric and Hybrid Electric Vehicles • Uninterruptible Power Supply (UPS) systems • Storage of renewable energy • Satellites and deep space probes • Boats and ships, drones and aircrafts • Wearable energy storage systems