Crystal chemistry and semiconduction in transition metal binary compounds

Crystal Chemistry and Semiconduction in Transition Metal Binary Compounds provides information pertinent to semiconductor materials. This book discusses the different semiconduction mechanisms in special compounds, including rare earth compounds or transition metals, vitreous or liquid substances, and organic semiconductors. Organized into three parts encompassing 11 chapters, this book starts with an overview of the basic principles of chemistry, such as the periodic table and the structure of the atom. This text then discusses the substances in which atomic magnetic moment exists, and whose transport properties are not typically metallic. Other chapters examine the experimental work on the electrical conductibility of compounds of transition metals, actinides, or rare earths. This book discusses as well the theoretical concepts necessary for the construction of approximate models to estimate the properties of compounds. The final chapter deals with the modulation of visible or infrared light, which is the only application of magneto- and electro-optical effects. This book is a valuable resource for research scientists, engineers, and teachers.

PrefaceAcknowledgmentsSymbols, Abbreviations, and physical ConstantsPart One Review and Discussion of Some Useful Theoretical Bases Chapter 1 From the Atom to the Molecule 1.1. Atomic Orbital Functions 1.2. H2 and H2+ Molecules 1.3. Heteronuclear Molecules 1.4. Extension of the VB Method References Chapter 2 From the Molecule to the Crystal 2.1. Covalent Aspect of Bonds 2.2. VB Approach (Crystallochemical Model) 2.3. MO Approach (Band Model) 2.4. Electrical Conductibility References Chapter 3 The Magnetic Crystal 3.1. Crystal Field Theory 3.2. Magnetic Interactions 3.3. Metal-to-Metal Transfers 3.4. Magneton-Electron Interactions References Part Two Bibliographical Digest (1947-1967) Chapter 4 IIIB, IVB, and VB Metalloid Compounds 4.1. Main Structures 4.2. Interstitial Compounds 4.3. Silicides, Germanides, Stannides 4.4. Phosphides, Arsenides, Antimonides References Chapter 5 Oxides of the Metals Ti, V, Cr, Mn, and Homologues 5.1. TO, T3O4 , and T2O3 Oxides 5.2. Rutile TiO2 5.3. Other Dioxides 5.4. T2O5 and TO3 Oxides References Chapter 6 Oxides of the Metals Fe, Co, Ni, Cu, and Homologues 6.1. Mossbauer Effect 6.2. TO Oxides 6.3. T3O4 Oxides 6.4. T2O3 Oxides References Chapter 7 Transition Metal Chalcogenides 7.1. Main Structures 7.2. Sulfides 7.3. Selenides 7.4. Tellurides References Chapter 8 Compounds of Rare Earths and Similar Elements 8.1. Main Structures 8.2. IIIB, IVB, and VB Compounds 8.3. Oxides 8.4. Chalcogenides References Part Three Some Present Problems and Possible Applications Chapter 9 Various Magnetoelectric Effects 9.1 . Magnetic Scattering 9.2. Magnetoresistance 9.3. Astrov Effect 9.4. Possible Applications References Chapter 10 Hall Magnetoelectric Effects 10.1. Ordinary Hall Effect 10.2. Extraordinary Hall Effect 10.3. Experimental Research 10.4. Possible Applications References Chapter 11 Electro- and Magnetooptical Effects 11.1. Forced Birefringencies 11.2. Faraday Effect 11.3. Experimental Research 11.4. Possible Applications References Appendix Index of FormulasIndex of StructuresAuthor IndexSubject Index