Electronic and Optical Properties of d-Band Perovskites / by T. Wolfram and S. Ellialtioglu. [Electronic Resource]
Material type: Computer filePublication details: Cambridge : Cambridge University Press, 2006Description: xi, 315pISBN:- 9780511541292
- 537.623 3Â W884E
Item type | Home library | Collection | Call number | Status | Notes | Date due | Barcode | Item holds | |
---|---|---|---|---|---|---|---|---|---|
e-Book | S. R. Ranganathan Learning Hub Online | Textbook | 537.623 3 W884E (Browse shelf(Opens below)) | Available (e-Book For Access) | Platform : Cambridge Core | EB0504 |
Browsing S. R. Ranganathan Learning Hub shelves, Shelving location: Online, Collection: Textbook Close shelf browser (Hides shelf browser)
537.244 8 Sa32P Phase Transitions in Ferroelastic and Co-elastic Crystals | 537.622 Sz21P Physics of Semiconductor Devices | 537.6225 D262E Electronic Transport in Mesoscopic Systems | 537.623 3 W884E Electronic and Optical Properties of d-Band Perovskites | 539.602 87 B812R Rotational Spectroscopy of Diatomic Molecules | 539.7 T21N Nuclear Physics | 539.72 C624P Particle Physics : A Very Short Introduction |
The perovskite family of oxides includes a vast array of insulators, metals, and semiconductors. Current intense scientific interest stems from the large number of diverse phenomena exhibited by these materials including pseudo two-dimensional electronic energy bands, high temperature superconductivity, metal-insulator transitions, piezoelectricity, magnetism, photochromic, and catalytic activity. This book is the first text devoted to a comprehensive theory of the solid-state properties of these fascinating materials. The text includes complete descriptions of the important energy bands, photoemission, surface states, and the chapter on high-temperature superconductors explores the electronic states in typical copper-oxide materials. Theoretical results are compared to experiment and discussed throughout the book. With problem sets included, this is a unified, logical treatment of fundamental perovskite solid-state chemistry which will appeal to graduate students and researchers alike.
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