Nanocomposites comprised of doped cerium dioxide and lanthanum manganite for syngas production
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N. Uvarov | E. Moroz | V. Zaikovskii | V. Sadykov | V. Kriventsov | D. I. Kochubey | G. Alikina | A. Lukashevich | V. Zyryanov | Yu. V. Frolova-Borchert
[1] S. Neophytides,et al. Structural features and the lattice oxygen reactivity of low-temperature lanthanum manganites doped with different cations , 2005 .
[2] E. Moroz,et al. Nanostructured, Gd-doped ceria promoted by Pt or Pd: investigation of the electronic and surface structures and relations to chemical properties. , 2005, The journal of physical chemistry. B.
[3] S. Neophytides,et al. Mechanosynthesis of complex oxides and preparation of mixed conducting nanocomposites for catalytic membrane reactors , 2005 .
[4] Chong-Min Wang,et al. Oxygen transport studies in nanocrystalline ceria films , 2005 .
[5] V. P. Ivanov,et al. Electronic and chemical properties of nanostructured cerium dioxide doped with praseodymium. , 2005, The journal of physical chemistry. B.
[6] J. Kilner,et al. Electrical conductivity and oxygen transfer in gadolinia-doped ceria (CGO)–Co3O4−δ composites , 2004 .
[7] S. Rushworth,et al. Preparation of dense, ultra-thin MIEC ceramic membranes by atmospheric spray-pyrolysis technique , 2004 .
[8] A. Kovalevsky,et al. Oxygen transport in Ce0.8Gd0.2O2−δ-based composite membranes , 2003 .
[9] W. Jin,et al. Oxygen Transport Properties and Stability of Mixed-Conducting ZrO2-Promoted SrCo0.4Fe0.6O3-δ Oxides , 2002 .
[10] Thomas O. Mason,et al. Electrical and oxygen storage/release properties of nanocrystalline ceria-zirconia solid solutions , 2002 .
[11] Haitao Huang,et al. Sintering and densification behavior of Mn-doped CeO2 , 2001 .
[12] B. Steele,et al. Kinetic parameters influencing the performance of IT-SOFC composite electrodes , 2000 .
[13] P. Dyer,et al. Ion transport membrane technology for oxygen separation and syngas production , 2000 .
[14] A. Kovalevsky,et al. Oxygen Permeability of Ce0.8Gd0.2 O 2 − δ ‐ La0.7Sr0.3MnO3 − δ Composite Membranes , 2000 .
[15] G. Choi,et al. Mixed ionic and electronic conductivity of [(ZrO 2) 0.92(Y 2O 3) 0.08] 1- y (MnO 1.5) y , 2000 .
[16] Mogens Bjerg Mogensen,et al. Physical, chemical and electrochemical properties of pure and doped ceria , 2000 .
[17] K. Wiik,et al. Prospects and problems of dense oxygen permeable membranes , 2000 .
[18] John A. Kilner,et al. Optimisation of composite cathodes for intermediate temperature SOFC applications , 1999 .
[19] M. B. Phillipps,et al. Gd1 − x A x Mn1 − y Co y O 3 − δ ( A = Sr , Ca ) as a Cathode for Solid‐Oxide Fuel Cells , 1999 .
[20] A. Kovalevsky,et al. Ceramic Microstructure and Oxygen Permeability of SrCo ( Fe , M ) O 3 − δ ( M = Cu or Cr ) Perovskite Membranes , 1998 .
[21] Roger B. Poeppel,et al. Dense ceramic membranes for partial oxidation of methane to syngas , 1995 .
[22] Meilin Liu,et al. Preparation of La_1−zSr_zCo_1−yFe_yO_3−x thin films, membranes, and coatings on dense and porous substrates , 1995 .
[23] M. Mori,et al. Stability of La1−xAxMnO3−z (A=Ca, Sr) as cathode materials for solid oxide fuel cells , 1994 .
[24] H. Anderson. Review of p-type doped perovskite materials for SOFC and other applications , 1992 .
[25] R. D. Shannon. Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides , 1976 .
[26] N. Browning,et al. Mixed ionic electronic conducting perovskites for advanced energy systems , 2004 .
[27] S. Neophytides,et al. Structure Specificity of Nanocrystalline Praseodymia Doped Ceria , 2004 .