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· 분류 : 외국도서 > 과학/수학/생태 > 과학 > 화학 > 무기화학
· ISBN : 9789400978270
· 쪽수 : 1032쪽
목차
I. Chemistry and Preparation Technologies of Ferrites.- Preparation of Ferrites by Co-Precipitation and Related Processes.- Development and Application of Synthesizing Technique of Spinel Ferrites by the Wet Method.- The Preparation of Mn-Zn Ferrites by Co-Precipitation.- The Formation of ZnFe2O4 by the Air Oxidation of Aqueous Suspensions.- Formation of Mg-, Cd-, Zn-, Pb-, Cr-, Ti-, or V-Bearing Ferrite by Air (or NO3?) Oxidation of Aqueous Suspension.- Magnetic Property of Coprecipitates from Mixed Solution of Ni2+, Zn2+, and Fe3+.- Preparation of Spinal Ferrites by Hydrolysis of Metal Acetylacetonates.- Preparation of Ferrite Powder by Flux Method.- Growth of Non-Garnet Ferrite Films.- Influence of Lattice Match on the LPE Growth and Properties of Mn-Zn Ferrite Films on MnGa2O4 Substrates.- Some Properties of Bulk and Thin Film Mn-Ferrites.- Properties of Liquid Phase Epitaxially Grown Cobalt Ferrites.- LPE Growth of Magnetoplumbite and Lithium Ferrite from PbO-B2O3 Flux.- Magnetic Properties of LPE-Grown Hexagonal Strontium Aluminoferrite Films.- Raw Materials and Processing Parameters in Ferrite Production.- Characterization and Sintering of Ferrite Raw Material Powders.- Effects of Grinding ZnO and Fe2O3 on the Rate of Formation of Zinc Ferrite.- A Study of Grain Orientation of the Mn-Zn Spinel Ferrite.- Evaluation of the Ferrite Powders Compressibility.- The Importance of Hydrochloric Acid Regeneration Processes for the Industrial Production of Ferric Oxides and Ferrite Powders.- Effect of Processing Parameters on Morphology of Mn-Zn Ferrite Particles Produced by Hydroxide-Carbonate Coprecipitation.- Comparison of Analytical Results on Manganese Zinc Ferrites.- Preparation and Characterization of Low Firing Temperature Ferrites for Ferrimagnetic Pastes.- II. Magnetite, Electronic Phase Transitions, and Biogenic Magnetite.- Electronic Structure of Fe3O4 and Fe3?xMxO4.- Electronic Superstructure of Fe3O4.- Low Temperature Structure of Magnetite as Deduced from Diffuse Electron Scattering.- Hyperfine Fields and Electron Diffusion in Fe3?xGexO4.- Magnetic and Dielectric Relaxations in Fe3?xO4 and MnZn-Ferrites.- Magneto-Optical Spectra of Zinc-, Manganese-, and Nickel-Substituted Magnetite.- Anomalous Electronic Ordering of RFE2O4.- High-Coercivity Hysteresis Loop below 200 K of YFe2O4 and LuFe2O4.- Electron Exchange between Fe2+ and Fe3+ in LuFe2O4.- Metal-Insulator Transitions in Ti4O7 and V8O15.- Metal-Insulator Transitions in Ti4O7 and (Ti1?xVx;)4O7: Experiments and Theories.- The Magnetic and M-I Transitions in the Magneli Phase V8O15.- Biogenic Magnetite: A New Field of Magnetism in Biology.- Biogenic Magnetite (Fe3O4): A Ferrimagnetic Mineral in Bacteria, Animals, and Man.- III. Physics and Physical Chemistry of Ferrites, Garnets, and Other Ferrimagnetic Oxides.- Hyperfine Fields in Ferrites.- New Frame in Physics and Its Application to the Hyperfine Fields in Ferrites.- Hyperfine Interactions and Electron Diffusion in Ferrites.- Characters of the Hyperfine Fields of Fe3+ and Fe2+ as Seen from the NMR of the Low Temperature Phase of Fe3O4.- Hyperfine Fields in Ferrites with a Large Zinc Content.- Effect of the Temperature on the Relaxation and the Hyperfine Fields of Substituted Li Ferrites Studied by Mossbauer Effect.- Mossbauer Recoilless Fraction in the Magnesium Spinel Series, MgAl2?xFexO4.- Relaxation Studies in Fe-Zn and Fe-Zn-Cu Ferrites Using Mossbauer Spectroscopy.- Lithium Ferrites and Related Ferrites.- Crystal Structure and Cation Ordering in Lithium Ferrites.- Crystal Chemistry of the Spinel-Type Ferrite Series Li2M4+Fe6O12 (M4+=Ti4+, Sn4+, Ge4+, Si4+).- Magnetic Anisotropy in Lithium-Zinc Ferrites.- Magnetic Properties of Ferrites and Other Ferrimagnetic Oxides.- Effect of Additives on Magnetization of Ferrites.- Marked Increase of Initial Permeability in Cu0.5 Fe2.5O4?ZnFe2O4 System.- Perminvar Ferrites with Stable Magnetic Domain Configuration and Linear μi (T) Relation.- The Molecular Field Appr