Microstructure and electrochemical properties of cathode materials for SOFCs prepared via pulsed laser deposition
暂无分享,去创建一个
Rupak Das | Kenneth H. Sandhage | Meilin Liu | K. Sandhage | Meilin Liu | R. Snyder | M. Haluska | C. Jin | R. Narayan | Roger J. Narayan | Chunming Jin | Robert L. Snyder | E. Koep | Erik Koep | Michael S. Haluska | Rupak Das
[1] Meilin Liu,et al. A photolithographic process for investigation of electrode reaction sites in solid oxide fuel cells , 2005 .
[2] N. Imanishi,et al. Impedance spectroscopy of perovskite air electrodes for SOFC prepared by laser ablation method , 2004 .
[3] Jürgen Fleig,et al. Electrodes and electrolytes in micro-SOFCs: a discussion of geometrical constraints , 2004 .
[4] J. Zhai,et al. Role of oxygen pressure during pulsed laser deposition on the electrical and dielectric properties of antiferroelectric lanthanum-doped lead zirconate stannate titanate thin films , 2004 .
[5] Naijuan Wu,et al. Thin-film heterostructure solid oxide fuel cells , 2004 .
[6] M. Wienecke,et al. Yttria-stabilized zirconia films deposited by plasma spraying and sputtering , 2004 .
[7] G. Hubler,et al. Pulsed Laser Deposition of Thin Films , 2003, Handbook of Laser Technology and Applications.
[8] P. Fabry,et al. Study of CO2 electrodes in open devices of potentiometric sensors , 2003 .
[9] Hong-Ki Lee. Electrochemical characteristics of La1−xSrxMnO3 for solid oxide fuel cell , 2003 .
[10] A. Chug,et al. Integration of single crystal La0.7Sr0.3MnO3 films with Si(001) , 2002 .
[11] Changrong Xia,et al. Low-temperature SOFCs based on Gd0.1Ce0.9O1.95 fabricated by dry pressing , 2001 .
[12] Stephen J. Skinner,et al. Recent advances in Perovskite-type materials for solid oxide fuel cell cathodes , 2001 .
[13] H. Fukunaga,et al. Cathodic reaction mechanism of dense La0.6Sr0.4CoO3 and La0.81Sr0.09MnO3 electrodes for solid oxide fuel cells , 2000 .
[14] A. Mcevoy. Thin SOFC electrolytes and their interfaces- A near-term research strategy , 2000 .
[15] Brian C. H. Steele,et al. Appraisal of Ce1−yGdyO2−y/2 electrolytes for IT-SOFC operation at 500°C , 2000 .
[16] J. D. Carter,et al. Development of Solid‐Oxide Fuel Cells That Operate at 500°C , 1999 .
[17] B. Steele. Survey of materials selection for ceramic fuel cells II. Cathodes and anodes , 1996 .
[18] Zhi-guo Liu,et al. Preparation and characterization of epitaxial La0.65Sr0.35MnOz thin films grown by pulse laser deposition , 1996 .
[19] M. Mogensen,et al. Kinetic and geometric aspects of solid oxide fuel cell electrodes , 1996 .
[20] N. Minh. Ceramic Fuel Cells , 1993 .
[21] Yasunori Baba,et al. High Temperature Fuel Cell with Ceria‐Yttria Solid Electrolyte , 1988 .
[22] Ilhan A. Aksay,et al. Submicrometer-Scale Patterning of Ceramic Thin Films , 2004 .
[23] M. Alexe,et al. Non-Conventional Micro- and Nanopatterning Techniques for Electroceramics , 2004 .
[24] 高橋 武彦,et al. Science and technology of ceramic fuel cells , 1995 .
[25] Y. Takeda,et al. Perovskite-type oxides as oxygen electrodes for high temperature oxide fuel cells , 1987 .