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Mixed Ionic Electronic Conducting Perovskites for Advanced Energy Systems

  • Conference proceedings
  • © 2004

Overview

Editors:
  1. Nina Orlovskaya

    1. Department of Materials Science and Engineering, Drexel University, Philadelphia, USA

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  2. Nigel Browning

    1. Department of Chemical Engineering and Materials Science, University of California-Davis, Davis, USA

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    You can also search for this editor in PubMed   Google Scholar

  • Discusses progress and problems in the development of ionic, electronic, and MIEC materials as active materials in advanced energy systems; the development and design of solid-oxide fuel cells (SOFCs) for next-generation vehicles, chemical sensors and oxygen separation membranes; and identifies directions for future research, such as conducting mechanisms, stability and reliability of devices, degradation problems, crystal structure, classification of phase transitions exhibited by the materials

Part of the book series: NATO Science Series II: Mathematics, Physics and Chemistry (NAII, volume 173)

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Table of contents (30 papers)

  1. Front Matter

    Pages i-xiii
    Download chapter PDF

  2. Oxide Components for the Solid Oxide Fuel Cell

    • J. B. Goodenough
    Pages 1-13

  3. Vacancy Segregation at Grain Boundaries in Ceramic Oxides

    • N. D. Browning, R. F. Klie, Y. Lei
    Pages 15-25

  4. Metallic Conductivity and Magnetism: The Great Potential of Manganese and Cobalt Perovskites

    • B. Raveau
    Pages 27-38

  5. Raman Diagnostics of LaCoO3 Based Perovskites

    • N. Orlovskaya, D. Steinmetz
    Pages 39-51

  6. Mobility and Reactivity of the Surface and Lattice Oxygen of Some Complex Oxides with Perovskite Structure

    • V. A. Sadykov, N. N. Bulgakov, V. S. Muzykantov, T. G. Kuznetsova, G. M. Alikina, A. I. Lukashevich et al.
    Pages 53-74

  7. LaFeO3 and LaCoO3 Based Perovskites: Preparation and Properties of Dense Oxygen Permeable Membranes

    • Kjell Wiik, Anita Fossdal, Lise Sagdahl, Hilde L. Lein, Mohan Menon, Sonia Faaland et al.
    Pages 75-85

  8. Optimisation of Perovskite Materials for Fuel Electrodes

    • S. W. Tao, J. T. S. Irvine
    Pages 87-97

  9. Single Crystal Growth of Oxides and Refractory Materials

    • G. Balakrishnan, M. R. Lees, D. McK. Paul
    Pages 99-108

  10. Ionic Transport in Perovskite-Related Mixed Conductors: Ferrite-, Cobaltite-, Nickelate-, and Gallatebased Systems

    • A. Kovalevsky, V. Kharton, E. Naumovich, F. Marques, J. Frade
    Pages 109-122

  11. Structural/Property Relationships of the Mixed Electronic/Ionic Conductors Based on Lanthanum Gallate

    • Nigel Sammes
    Pages 123-136

  12. Microwave-Assisted Regeneration of Soot Filters

    • Y. Zhang-Steenwinkel, L. M. van der Zande, A. Bliek
    Pages 137-142

  13. Microheterogeneous Solid Solutions in Perovskites: Formation, Microstructure, and Catalytic Activity

    • L. A. Isupova, S. V. Tsybulya, G. N. Kryukova, V. A. Rogov, I. S. Yakovleva, V. A. Sadykov
    Pages 143-162

  14. Phase Transitions and Ion Transport in SrFe1-XMXO2.5, where M = Ga, Cr

    • M. V. Patrakeev, V. L. Kozhevnikov, I. A. Leonidov, J. A. Bahteeva, E. B. Mitberg
    Pages 163-168

  15. Connection of Giant Volume Magnetostriction with Colossal Magnetoresistance in Manganites

    • L. I. Koroleva
    Pages 169-175

  16. SOFC Perspectives in Ukraine

    • O. D. Vasylyev
    Pages 177-183

  17. Measurement of Oxygen Ionic Transport in Mixed Conductors

    • E. Naumovich, V. Kharton, F. M. B. Marques
    Pages 185-198

  18. A New Approach to The Defect Chemistry of Doped La1-ΔMnO3+δ

    • Keikichi Nakamura
    Pages 199-212

  19. Structure, Microstructure and Transport Properties of Mixed Conducting Lanthanum Gallate Based Perovskite Ceramics

    • E. D. Politova, S. Yu. Stefanovich, A. K. Avetisov, T. Yu. Glavatskikh, G. M. Kaleva, A. V. Mosunov et al.
    Pages 213-218

  20. Synthesis Structure peculiarities of (La, Sr)MnO3 Based Nanomanganites

    • I. Danilenko, T. Konstantinova, G. Volkova, V. Glazunova, G. Shatalova, A. Svyatkina
    Pages 219-224
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Keywords

About this book

Advanced mixed ionic electronic conducting (MIEC) perovskites play an important role in many electrochemical systems for advanced energy technologies. They are major components in such devices as solid oxide fuel cells (SOFCs), oxygen separation membranes, chemical sensors and catalysts. In addition to energy technology, the development of these multifunctional materials is of crucial importance for transportation, aerospace engineering, and electronics. The use of these materials as chemical sensors is also important for anti-terrorism initiatives. The present book discusses progress and problems in the development of ionic, electronic, and MIEC materials as active materials in advanced energy systems; the development and design of solid-oxide fuel cells (SOFCs) for next-generation vehicles, chemical sensors and oxygen separation membranes; and identifies directions for future research, such as conducting mechanisms, stability and reliability of devices, degradation problems, crystal structure, classification of phase transitions exhibited by the materials.

Editors and Affiliations

  • Department of Materials Science and Engineering, Drexel University, Philadelphia, USA

    Nina Orlovskaya

  • Department of Chemical Engineering and Materials Science, University of California-Davis, Davis, USA

    Nigel Browning

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