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A. Feighery, J. Irvine (1999)
Effect of alumina additions upon electrical properties of 8 mol.% yttria-stabilised zirconiaSolid State Ionics, 121
Michikazu Fukuya, K. Hirota, O. Yamaguchi, H. Kume, S. Inamura, H. Miyamoto, N. Shiokawa, R. Shikata (1994)
Sintering and characterization of yttria-stabilized cubic zirconia with alumina derived from solid solutionMaterials Research Bulletin, 29
I. Sora, C. Schmid, G. Dotelli, R. Ruffo, C. Mari (2002)
Analysis of the electrical behaviour of conductor/insulator composites using effective medium theoriesJournal of The European Ceramic Society, 22
A. Rizea, D. Chirlesan, C. Petot, G. Petot-ervas (2002)
The influence of alumina on the microstructure and grain boundary conductivity of yttria-doped zirconiaSolid State Ionics, 146
P. Majewski, M. Rozumek, F. Aldinger (2001)
Phase diagram studies in the systems La2O3-SrO-MgO-Ga2O3 at 1350-1400°C in air with emphasis on Sr and Mg substituted LaGaO3Journal of Alloys and Compounds, 329
T. Nguyen, M. Dokiya (2000)
Electrical conductivity, thermal expansion and reaction of (La, Sr)(Ga, Mg)O3 and (La, Sr)AlO3 systemSolid State Ionics, 132
L. Navarro, P. Recio, J. Jurado, P. Durán (1995)
Preparation and properties evaluation of zirconia-based/Al2O3 composites as electrolytes for solid oxide fuel cell systemsJournal of Materials Science, 30
Ke-qin Huang, R. Tichy, J. Goodenough (2005)
Superior Perovskite Oxide‐Ion Conductor; Strontium‐ and Magnesium‐Doped LaGaO3: I, Phase Relationships and Electrical PropertiesJournal of the American Ceramic Society, 81
C. Montross, B. Hassel, T. Kawada, H. Yokokawa, M. Dokiya (1995)
Conductivity and strength behaviour of aluminawhisker-zirconia compositesJournal of Materials Science, 30
J.P.P. Huijsmans, F.P.F Berkel, G. Christie (1998)
Intermediate temperature SOFC – a promise for the 21st centuryJournal of Power Sources, 71
D. Lybye, F. Poulsen, M. Mogensen (2000)
Conductivity of A- and B-site doped LaAlO3, LaGaO3, LaScO3 and LaInO3 perovskitesSolid State Ionics, 128
S. Baskaran, C. Lewinsohn, Yu-Szu Chou, M. Qian, J. Stevenson, T. Armstrong (1999)
Mechanical properties of alkaline earth-doped lanthanum gallateJournal of Materials Science, 34
T. Ishihara, H. Matsuda, Y. Takita (1994)
Doped LaGaO3 Perovskite Type Oxide as a New Oxide Ionic ConductorJournal of the American Chemical Society, 116
M. Rozumek, P. Majewski, L. Sauter, F. Aldinger (2004)
La1+xSr1-xGa3O7-δ melilite-type ceramics: Preparation, composition, and structureJournal of the American Ceramic Society, 87
I. Yasuda, Y. Matsuzaki, T. Yamakawa, T. Koyama (2000)
Electrical conductivity and mechanical properties of alumina-dispersed doped lanthanum gallatesSolid State Ionics, 135
M. Kleitz, L. Dessemond, M. Steil (1995)
Model for ion-blocking at internal interfaces in zirconiasSolid State Ionics, 75
Yuan Ji, Jiang Liu, Zhe Lu, Xin Zhao, T. He, W. Su (1999)
Study on the properties of Al2O3-doped (ZrO2)0.92(Y2O3)0.08 electrolyteSolid State Ionics, 126
Aya Yuzaki, A. Kishimoto (1999)
Effects of alumina dispersion on ionic conduction of toughened zirconia base compositeSolid State Ionics, 116
M. Kleitz, M. Steil (1997)
Microstructure blocking effects versus effective medium theories in YSZJournal of The European Ceramic Society, 17
J. Stevenson, T. Armstrong, L. Pederson, J. Li, C. Lewinsohn, S. Baskaran (1998)
Effect of A-site cation nonstoichiometry on the properties of doped lanthanum gallateSolid State Ionics, 113
M. Mori, T. Abe, H. Itoh, O. Yamamoto, Y. Takeda, T. Kawahara (1994)
Cubic-stabilized zirconia and alumina composites as electrolytes in planar type solid oxide fuel cellsSolid State Ionics, 74
T. Fukui, S. Ohara, K. Murata, H. Yoshida, K. Miura, T. Inagaki (2002)
Performance of intermediate temperature solid oxide fuel cells with La(Sr)Ga(Mg)O3 electrolyte filmJournal of Power Sources, 106
The recent interest in the (Sr, Mg) doped LaGaO3 family compounds as electrolyte for Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs) has suggested the study of the system α-Al2O3/La0.8Sr0.2Ga0.8Mg0.2O3–δ as a possible new ionic conductor composite. The studies concerning the electrical and microstructural characterization of the system α-Al2O3/La0.8Sr0.2Ga0.8Mg0.2O3–δ, in a wide compositions range, are reported and discussed.
Ionics – Springer Journals
Published: May 16, 2006
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