固体氧化物燃料电池复合阴极研究进展被引量：2

Research progress in composite cathode of SOFC

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摘要介绍了复合阴极材料在中低温SOFC的研究进展,从化学动力学和三相界面理论阐述了复合阴极材料在降低阴极的极化电阻、界面电阻和极化过电位的机理,指明了复合阴极材料的重要作用和发展前景。 The research progress in composite cathode materials used in SOFC was reviewed in this paper. Composite cathode could decrease the polarization resistance, inteffacial resistance and overpotential, and their mechanisms of the above were demonstrated in terms of chemical dynamics and triple phase boundary theory. The important role and development prospect of composite cathode materials were also pointed out.

作者邬理伟郑颖平孙岳明

机构地区东南大学化学化工学院

出处《电池工业》 CAS 2010年第1期53-56,共4页 Chinese Battery Industry

基金江苏省高技术研究基金(BG2006033)

关键词固体氧化物燃料电池复合阴极极化电阻功率密度 solid oxide fuel cell （SOFC） composite cathode polarization resistance power density

分类号 TM911.4 [电气工程—电力电子与电力传动]

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参考文献16

1Maguire E, Gharbage B, Margues F M B, et al. Cathode materials for intermediate temperature SOFCs [J]. Solid State Ionics, 2000, 127 (3-4): 329-335.
2Endo A, Fukunaga H, Wen C, et al. Cathode reaction mechanism of dense La0.6Sr0.4CoO3 and La0.81Sr0.09MnO3 electrodes for solid oxide fuel cells [J]. Solid State Ionics, 2000,135 (1-4): 353-358.
3Lee Y K, Kim J Y, Lee Y K. Conditioning effects on La1-x SrxMnO3-y ttria stablilized zirconia electrodes for thin-film solid oxide fuel cells [J]. Journal of Power Sources, 2003, 115 (2): 219-228.
4Zhang H, Liu H, Cong H, et al.Investigation of Sm0.5Sr0.5CoO3-δ/Co3O4 composite cathode for intermediate- temperature solid oxide fuel cells [J]. Journal of Power Sources, 2008, 185 (1): 129-135.
5Minh N Q. Ceramic fuel cells [J]. Journal of the American Ceramic Society, 1993, 76 (3): 563-567.
6Alder S B, Chen X Y, Wilson J R. Mechanism and rate laws for oxygen exchange on mixed-conducting oxide surfaces [J]. Journal of Catalysis, 2007, 245 (1): 91-109.
7Murray E P, Tsai T, Barnett S A. Oxygen transfer processes in (La,Sr)MnO3/Y2O3-stabilized ZrO2 cathodes: an impendence spectroscopy study [J]. Solid State Ionics, 1998, 110 (3-4): 235-243.
8Piao J, Sun K, Zhang N, et al. A study of process parameters of LSM and LSM-YSZ composite cathode films prepared by screen-printing [J]. Journal of Power Sources, 2008,175 (1): 288-295.
9Zhang M, Yang M, Hou Z, et al. A bi-layered composite cathode of La0.8Sr0.2MnO3-YSZ and La0.8Sr0.2MnO3- La0.4Ce0.6O1.8 for IT-SOFCs [J]. Electrochimica Acta, 2008, 53 (15): 4998-5006.
10Murry E P, Sever M J, Barnett S A. Electrochemical performance of (La, Sr)(Co, Fe)O3-(Ce, Gd)O3 composite cathodes [J]. Solid State Ionies, 2002, 148 (1-2): 27-34.

同被引文献27

1Kadowaki T, Shiomitsu T, Marsuda E, et al. Applicability of heat resisting alloys to the separator of planar type solid oxide fuel cell[J]. Solid State Ionics, 1993, 67(1/2): 65-69.
2Yang Z, Weil K S, Paxton D M, et al. Selection and evalu- ation of heat-resistant alloys for SOFC interconnect appli- cations[J]. Journal of the Electrochemical Society, 2003, 150(9): A1188-A1201.
3Horita T, Xiong Y, Kishimoto H, et al. Application of Fe-Cr alloys to solid oxide fuel cells for cost-reduction: Oxidation behavior of alloys in methane fuel[J]. Journal of Power Sources, 2004, 131 (1/2): 293-298.
4Tucker M C, Kurokawa H, Jacobson C P, et al. A funda- mental study of chromium deposition on solid oxide fuel cell cathode materials[J]. Journal of Power Sources, 2006, 160(1): 130-138.
5Konysheva E, Penkalla H, Wessel E, et al. Chromium poisoning of perovskite cathodes by the ODS alloy Cr5FelY203 and the high chromium ferritic steel Cro- fer22APU[J]. Journal of the Electrochemical Society, 2006, 153(4): A765-A773.
6Yokokawa H, Horita T, Sakai N, et al. Thermodynamic considerations on Cr poisoning in SOFC cathodes[J]. Sol- id State Ionics, 2006, 177(35/36): 3193-3198.
7Liu D J, Almer J, Cruse T. Characterization of Cr poison- ing in a solid oxide fuel cell cathode using a high energy X-ray microbeam [J]. Journal of the Electrochemical So- ciety, 2010, 157(5): B744-B750.
8Horita T, Xiong Y P, Kishimoto H, et al. Chromium poi- soning and degradation at (La,Sr)MnO3 and (La,Sr)FeO3 cathodes for solid oxide fuel cells[J]. Journal of the Elec- trochemical Society, 2010, 157(5): B614-B620.
9Chiba R, Yoshimura F, Sakurai Y. An investigation ofLaNitFexO3 as a cathode material for solid oxide fuel cells[J]. Solid State Ionics, 1999, 124(3/4): 281-288.
10Zhen Y D, Tok A I Y, Jiang S P, et al. La(Ni,Fe)O3 as a cathode material with high tolerance to chromium poisoning for solid oxide fuel cells[J]. Journal of Power Sources, 2007, 170(1): 61-66.

引证文献2

1任睿轩,黄波,朱新坚,胡一星,丁小益,刘宗尧,刘烨彬.Gd0.2Ce0.8O2包覆LaNi0.6Fe0.4O3-δ阴极制备及性能[J].电化学,2013,19(3):275-280.
2李扬,黄波,袁梦,张志秋,刘宗尧,唐旭晨,朱新坚.中温固体氧化物燃料电池LaNi_(0.6)Fe_(0.4)O_(3-δ-)Gd_(0.2)Ce_(0.8)O_2梯度复合阴极制备及交流阻抗性能[J].电化学,2014,20(1):45-50.

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固体氧化物燃料电池复合阴极研究进展被引量：2

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固体氧化物燃料电池复合阴极研究进展被引量：2