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Magnetic, ferroelectric, and multiferroic metal oxides / edited by Biljana D. Stojanovic (Institute for Multidisciplinary Research, University of Belgrade, Belgrade, Serbia).
| Other author | Stojanović, Biljana D. |
| Format | Electronic |
| Publication Info | Amsterdam, Netherlands : Elsevier, [2018] |
| Description | xl, 617 pages : illustrations (some color) ; 23 cm. |
| Supplemental Content | Full text available from eBook - Materials Science 2018 |
| Subjects |
| Series | Metal oxides series Metal oxides series. UNAUTHORIZED |
| Contents | Machine generated contents note: pt. I Ferroelectric Metal Oxides -- Section I Ferroelectrics: Fundamentals -- 1. General view of ferroelectrics: Origin of ferroelectricity in metal oxide ferroelectrics and ferroelectric properties / Juras Banys -- 1.1. Introduction -- 1.2. Macroscopic phenomenological theory of ferroelectric phase transitions -- 1.3. Microscopic theory of ferroelectrics: the mean field -- 1.4. Dynamic properties of ferroelectrics: theory -- 1.5. Raman, infrared, and dielectric spectroscopy of ferroelectrics -- 1.6. Other spectroscopic techniques -- 1.7. The size and mechanical strain effect in ferroelectric ceramics and thin films -- 1.8. Summary -- References -- 2. Perovskite and Aurivillius: Types of ferroelectric metal oxides / Jelena D. Bobic -- 2.1. Introduction -- 2.2. Perovskite structure -- 2.3. Aurivillius type of ferroelectric metal oxides -- 2.4. Summary -- References -- 3. Lead-free perovskite ferroelectrics / Barbara Malic -- 3.1. Introduction -- 3.2. Alkaline niobates -- 3.3. Alkaline bismuth titanates -- 3.4. Barium titanate-based piezoelectrics -- 3.5. Conclusions -- Acknowledgments -- References -- 4. Perovskite layer-structured ferroelectrics / Idalci Cruvinel dos Reis -- 4.1. General overview -- 4.2. Physical properties -- Acknowledgements -- References -- Section II Ferroelectric Metal Oxides: Synthesis and Deposition -- 5. Review of methods for powder-based processing / Jurij Koruza -- 5.1. Introduction -- 5.2. Solid-state synthesis of ferroelectric perovskites -- 5.3. Sintering of ferroelectric bulk ceramics -- 5.4. Thick films -- Acknowledgements -- References -- 6. Chemical synthesis and epitaxial growth methods for the preparation of ferroelectric ceramics and thin films / Maria A. Zaghete -- 6.1. Introduction -- 6.2. Chemical synthesis of ferroelectric ceramic powders -- 6.3. Epitaxial ferroelectric films: growth methods -- 6.4. Conclusion -- Acknowledgments -- References -- 7. Nanosized ferroelectrics: Preparation, properties, and applications / Maria A. Zaghete -- 7.1. Synthesis of nanostructured ferroelectrics -- 7.2. Piezoresponse force microscopy -- 7.3. Potential applications of nanosized ferroelectrics -- 7.4. Final considerations -- Acknowledgments -- References -- 8. Nanosized BaTiO3-based systems / Catalina-Andreea Stanciu -- 8.1. Fundamentals of undoped BaTiO3 systems -- 8.2. State of the art of nanosized BaTiO3-based systems -- 8.3. Recent approach to nanosized BaTiO3-based systems -- 8.4. Conclusions and trends -- Acknowledgements -- References -- 9. Ecological, lead-free ferroelectrics / Amador M. Gonzalez -- 9.1. Lead-free ferroelectrics -- 9.2. Preparation of lead-free piezoelectric ceramics with perovskite structure -- 9.3. Properties of lead-free piezoelectric ceramics -- 9.4. Future trends in the development of lead-free ferropiezoelectric ceramics -- References -- Section III Ferroelectric Metal Oxides Application -- 10. Compositionally-graded ferroelectric ceramics and multilayers for electronic and sensing applications / Lucian Pintilie -- 10.1. Review of the current situation -- 10.2. Recent results -- 10.3. Conclusions and trends -- References -- 11. Review of the most common relaxor ferroelectrics and their applications / Biljana D. Stojanovic -- 11.1. Introduction -- 11.2. Lead-based perovskite relaxors -- 11.3. Bismuth-layered perovskite relaxors -- References -- Further reading -- 12. Tunable ferroelectrics for frequency agile microwave and THz devices / Juan Hinojosa -- 12.1. Introduction -- 12.2. Techniques for measuring permittivity at microwave frequencies -- 12.3. Ferroelectrics at THz frequencies -- References -- 13. Piezoelectric energy harvesting device based on quartz as a power generator / Carlos A. Fortulan -- 13.1. Introduction -- 13.2. Low-power piezoelectric EH generator -- 13.3. Process manufacturing and functional experiments of quartz EH -- 13.4. Conclusion -- References -- 14. Nonvolatile memories / Carlos O. Paiva-Santos -- 14.1. Introduction -- 14.2. Nonvolatile memory device operation -- 14.3. Radio frequency-sputtered CaCu3Ti4O12 thin film -- 14.4. Spin-coated CaCu3Ti4O12 thin films -- References -- pt. II Magnetic and Multiferroic Metal Oxides -- Section IV Magnetic Oxides: Ferromagnetics, Antiferromagnetics and Ferrimagnetics -- 15. Theory of ferrimagnetism and ferrimagnetic metal oxides / Chuanhu Wang -- 15.1. Introduction -- 15.2. Magnetic fields in materials -- 15.3. Magnetisms -- 15.4. Ferrites -- 15.5. Theoretical aspects of ferrimagnetism -- 15.6. Summary -- References -- 16. Metal oxide structure, crystal chemistry, and magnetic properties / Srdjan Rakic -- 16.1. Magnetic elements/ions -- 16.2. Magnetic oxides -- 16.3. Magnetism of magnetic oxides -- 16.4. Representative structures of magnetic oxides -- References -- 17. Review of methods for the preparation of magnetic metal oxides / Nikola I. Ilic -- 17.1. Introduction -- 17.2. Synthesis of metal magnetic oxides -- 17.3. Synthesis of multiferroic materials -- 17.4. Summary -- References -- 18. Ferrite-based composites for microwave absorbing applications / Chuanhu Wang -- 18.1. Introduction -- 18.2. Theoretic considerations -- 18.3. Barium ferrite composites -- 18.4. Concluding remarks -- References -- 19. Soft ferrite applications / Goran Radosavljevic -- 19.1. Characterization of ferrite material -- 19.2. Passive ferrite components -- 19.3. Ferrite sensors -- 19.4. Conclusion -- References -- 20. Biomedical applications / Dusanka S. Mandic -- 20.1. Introduction -- 20.2. Biomedical applications of magnetic oxides -- References -- Section V Multiferroics: Fundamentals -- 21. Ferroelectric perovskite -- spinel ferrite ceramics / Liliana Mitoseriu -- 21.1. Introduction -- 21.2. Ceramic composites of Nb-doped Pb(Zr, Ti)O3 with MnFe2O4 -- 21.3. Nb-doped Pb(Zr, Ti)O3-ferrite composites prepared by in situ sol-gel combustion method -- 21.4. Conclusions -- Acknowledgments -- References -- 22. Single-phase, composite and laminate multiferroics / Antonio Feteira -- 22.1. Introduction -- 22.2. Single-phase multiferroics -- 22.3. Magnetoelectric multiferroic composites -- 22.4. Final remarks -- References -- Section VI Multiferroic Metal Oxides: Properties and Applications -- 23. Single and heterostructure multiferroic thin films / Antoine Barbier -- 23.1. Introduction -- 23.2. Elements of thin-film growth: Thin films versus multiferroics -- 23.3. Pertinence of multiferroic thin films: Multiferroics versus thin films -- 23.4. Conclusion -- References -- 24. BiFeO3 ceramics and thick films: Processing issues and electromechanical properties / Andreja Bencan -- 24.1. Processing issues -- 24.2. Polarization switching, piezoelectricity, and local electrical conductivity -- Acknowledgments -- References -- 25. Properties of single multiferroics: Complex transition metal oxides / Biljana D. Stojanovic -- 25.1. Introduction -- 25.2. Classification of single multiferroics -- 25.3. A-site driven ferroelectricity multiferroics -- 25.4. Geometrically driven ferroelectricity multiferroics -- 25.5. Charge ordering driven ferroelectricity multiferroics -- 25.6. Type I multiferroics with complex or unknown origin of ferroelectricity -- 25.7. Magnetically driven ferroelectrics: Type II multiferroics -- 25.8. Conclusion -- References -- 26. Bulk composite multiferroics: BaTi03-ferrites / Biljana D. Stojanovic -- 26.1. Preparation procedures of bulk multiferroics -- 26.2. Ferroelectric-dependent electrical properties of the multiferroics -- 26.3. Ferrite-dependent magnetic properties of multiferroics -- References -- 27. Complex composites: Polymer matrix-ferroics or multiferroics / Mirjana M. Vijatovic Petrovic -- 27.1. Summary -- References -- 28. Ferroelectric, ferromagnetic, and multiferroic heterostructures for possible applications as tunnel junctions / Ashok Kumar -- 28.1. Introduction -- 28.2. Ferroelectric nonvolatile memories -- 28.3. Ferroelectric tunnel junctions -- 28.4. Critical thickness for the existence of ferroelectricity -- 28.5. Magnetic tunnel junctions -- 28.6. Multiferroic tunnel junctions -- 28.7. Multiferroic heterostructure-based tunnel junctions -- 28.8. Tunneling electroresistance for the realization of nondestructive ferroelectric polarization readout -- 28.9. Advantages of band excitation over single frequency excitation piezoresponse force microscopy -- 28.10. Summary and outlook -- References. |
| Bibliography note | Includes bibliographical references and index. |
| Access restriction | Available only to authorized users. |
| Technical details | Mode of access: World Wide Web |
| Genre/form | Electronic books. |
| LCCN | 2018302769 |
| ISBN | 9780128111802 (pbk.) |
| ISBN | 0128111801 (pbk.) |
Availability
| Library | Location | Call Number | Status | Item Actions |
|---|---|---|---|---|
| Electronic Resources | Access Content Online | ✔ Available |