Introduction: Importance of oxides in functional applications, Revision of basic crystallography: point group and space group.
Structure: Concepts of ionic bonding, Grouping of ions and structure rules, Radius ratio concept, Structure of crystalline oxides, Case studies, Demonstration of open-source software package(s) for geometric construction of oxide structures and determination of structural parameters.
Defect Reactions and Defect Equilibria: Different types of defects in oxides, Rules for defect reaction, Kröger-Vink notations, Conditions of equilibrium, Thermodynamics, Conditions of stoichiometry.
Electrical conductivity and Conducting oxides: Laws of diffusion,Lattice, grain boundary and surface diffusion, Theory of ionic conductivity, Solid electrolytes and fast ion conductors, Concepts of Thermoelectric effect.
Linear and non-linear dielectric oxides: Theory of linear dielectrics, circuit description, Dielectric constant and polarization, Dipolar polarization theory, Crystallographic consideration towards non-linear dielectric behavior. Concepts of piezo and ferroelectricity, Case studies.
Magnetic Oxides: Basic Theory, Types of magnetism, Exchange interactions, Case studies, Coupling of electrical and magnetic orders in oxides. |
Texts and References:
- L.L. Hench and J. K. West, Principles of Electronic Ceramics, John Wiley and Sons Ltd, New York, 1990.
- W. D. Kingery, H. K. Bowen (Author), Donald R. Uhlmann, Introduction to Ceramics, Wiley-Interscience; 2nd edition, 1976
- M. W. Barsoum, Fundamentals of Ceramics, CRC Press, 2002
- Per Kofstad, Non-stoichiometry, Diffusion and Electrical Conductivity in Binary Metal Oxides, Wiley-Interscience, 1972
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