Bibliographic Information

Binary rare earth oxides

edited by G. Adachi, N. Imanaka, and Z.C. Kang

Kluwer Academic Publishers, c2004

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Includes bibliographical references

Description and Table of Contents

Description

Binary Rare Earth Oxides is the first book in the field of rare earth oxides that provides coverage from the basic science through to recent advances. This book introduces the unique characteristics of the binary rare earth oxides with their chemistry, physics and applications. It provides a comprehensive review of all the characteristics of rare earth oxides, essential for scientists and engineers involved with rare earths, oxides, inorganic materials, ceramics, and structures. The binary rare earth oxides bring us a variety of interesting characteristics. Understanding their fundamental mechanisms builds a bridge between solid-state chemistry and materials science. The book begins with a brief introduction to binary rare earth oxides, their physical and chemical stabilities, polymorphism, crystal structures and phase transformation and the association with current applications. The book goes on to present the band structure of the oxides using several quantum chemical calculations, which belong to a newly developed area in the binary rare earth oxides. Central to this chapter are the characterizations of electrical, magnetic and optical properties, as well as details of single crystal growth and particle preparation methods that have progressed in recent years. Later chapters concentrate on thermo-chemical properties and trace determination techniques. The final chapter contains a variety of useful applications in various fields such as phosphors, glass abrasives, automotive catalysts, fuel cells, solid electrolytes, sunscreens, iron steels, and biological materials. This book is an invaluable resource for materials scientists and solid-state physicists and chemists with an interest in rare earth oxides, as well as advanced students and graduates who require an approach to familiarize them with this field. This book provides guidance through a comprehensive review of all the characteristics of binary rare earth oxides.

Table of Contents

  • 1. Introduction
  • G. Adachi and Z. Kang 1.1. Why Are Rare Earth Oxides So Important? 1.2. A Variety of Rare Earth Oxides 1.3. Simplicity and Complexity of Rare Earth Oxides 2. Chemical Reactivity of Binary Rare Earth Oxides
  • S. Bernal, G. Blanco, J. M. Gatica, J.A. Perez Omil, J. M. Pintado, and H. Vidal 2.1. Introduction 2.2. Chemical Reactivity of the Rare Earth Sesquioxides 2.2.1. Preliminary Considerations about the Ln2O3-H2O-CO2 System 2.2.2. The Chemistry of the Ln2O3-CO2-H2O Systems 2.2.3. Other Studies on the Chemical Reactivity of the Rare Earth Sesquioxides 2.3. Chemical Reactivity of the Higher Rare Earth Oxides 2.3.1. Redox Chemistry of the Higher Rare Earth Oxides 2.3.2. Temperature Programmed Oxygen Evolution Studies 2.3.3. Temperature Programmed Reduction Studies 2.3.4. Reduction by CO of the Higher Rare Earth Oxides 2.3.5. Re-oxidation of Pre-reduced Higher Rare Earth Oxides 2.3.6. Modification of the Redox Behavior of the Higher Rare Earth Oxides 2.3.7. Other Studies on the Reactivity of the Higher Rare Earth Oxides 3. Structural Features of Rare Earth Oxides
  • E. Schweda and Z. Kang 3.1. Introduction 3.2. The Dioxides 3.2.1. The Fluorite Structure 3.2.2. The Structure of Intermediate Ce-, Pr-, and Tb-Oxides 3.2.3. The Structure of Intermediate Rare Earth Oxides 3.2.4. Interpretation and Simulation of defect Separations in the Rare Earth Oxides 3.2.5. Phase Transformation 3.3. The Sesquioxides 3.3.1. Structure of Sesquioxides 3.3.2. Polymorphism 3.4. The Lower Oxides (Monoxides LnO and Eu3O4) 3.5. High Resolution Electron Microscopy (HREM) 3.5.1. Electron Diffraction Data of the OxygenDeficient, Fluorite-related Homologous Series of the Binary, Rare Earth Oxides 3.5.2. Composition Domain and Hysteresis Loop 3.5.3. Surface Structure of the Rare Earth Higher Oxides 3.5.4. Defect and Chemical Reactivity of the Rare Earth Higher Oxides 3.5.5. Phase Transition from Tb48O88 (ss(3)) to Tb24O44 (ss(2)) 4. Chemical Bonds and Calculation Approach to Rare Earth Oxides
  • Y. Makino and S. Uchida 4.1. Introduction 4.2. Electronic Structure of Sesquioxides 4.3. Electronic Structure of Fluorite Oxides 5. Physical and Chemical Properties of Rare Earth Oxides
  • N. Imanaka 5.1. Electrical Properties 5.2. Magnetic Properties 5.3. Spectroscopic Properties 5.4. Atomic Transport Properties 6. Particles and Single Crystals of Rare Earth Oxides
  • N. Imanaka and T. Masui 6.1. Particles 6.1.1. Breakdown and Buildup Method 6.1.2. Gas Condensation 6.1.3. Chemical Vapor Deposition 6.1.4. Precipitation Method 6.1.5. Hydrothermal and Solvothermal Methods 6.1.6. Sol-gel Method 6.1.7. Emulsion and Microemulsion Method 6.1.8. Ultrasound and Microwave Irradiation Method 6.1.9. Spray Pyrolysis 6.1.10. Electrochemical Method 6.1.11. Mechanochemical Method 6.1.12. Flux Method and Alkalide Reduction Method 6.2. Single Crystals 6.2.1. Conventional Crystal Growth from Melt 6.2.2. Hydrothermal Crystallization Growth 6.2.3. Recent Advance in Single Crystal Growth of Rare Earth Oxides 7. Thermochemistry of Rare Earth Oxides
  • L.R. Morss and R.J.M. Konings 7.1. Introduction and Scope 7.2. Historical 7.3. Thermochemical Techniques 7.3.1. Combustion Calorimetry 7.3.2. Solution Calorimetry 7.3.3. Low-temperature Adiabatic Calorimetry 7.3.4.

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Details

  • NCID
    BA89015431
  • ISBN
    • 1402025688
  • LCCN
    2004056094
  • Country Code
    ne
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Dordrecht
  • Pages/Volumes
    xiv, 257 p.
  • Size
    25 cm
  • Classification
  • Subject Headings
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