Magnetic, Ferroelectric, and Multiferroic Metal Oxides
Metal Oxides Series

Coordinator: Stojanovic Biljana

Language: English
Cover of the book Magnetic, Ferroelectric, and Multiferroic Metal Oxides

Subjects for Magnetic, Ferroelectric, and Multiferroic Metal Oxides

Keywords

Antiferromagnetic; Aurivillius; BST ceramics; BT-based system; BaTiO3; Barium ferrite composite; Barium titanate; Biomedical applications; Bismuth layer-structured ferroelectric; Bismuth layered-structure ferroelectric materials; Bottom-up; Bottom-up method; Ceramics; Composite multiferroics; Composites; Contrast agents; Coprecipitation method; Crystals; Curie-Weiss; DISCO blade; Data storage; Device fatigue; Diagnostics; Diamagnetic; Dielectric system; Diffuse phase transition characteristics; Electromagnet; Electronics integration; Energy harvesting; Environmental regulations; Epitaxal multilayers; Epitaxial layers; Ferrimagnetic; Ferrite; Ferrite composite; Ferrites; Ferroelectric; Ferroelectric bimorph; Ferroelectric nanostructure; Ferroelectric oxides; Ferroelectricity; Ferroelectrics; Ferroic phase; Ferromagnetic; Ferrotoroidic; Flexible electronics; Frequency agile device; Garnet; Graded ferroelectric structure; Heterostructure; Hydrothermal synthesis; Impurities; Laminate multiferroics; Lead; Lead zirconate titanate; Lead-based perovskite relaxor; Lead-free; Lead-free ferroelectrics; Lodestone; Low dimensionality; Magnetic field; Magnetic oxide; Magnetism; Magnetite; Magnetization; Magnetoelectric; Magnetoelectric coupling; Magnetoelectric effect; Magnetoelectric multiferroics; Manganites; Matrix components; Maxwell-Wagner; Metal oxide; Microwave; Molten salt synthesis; Multiferrioc; Multiferroic thin films; Multiferroics; Multilayer ceramic capacitors; Nanopowder; Natural resonance; Nonresonant; Nonvolatile memory; Order-disorder; Oxide layers; Oxides; PZT; Paramagnetic; Passive ferrite components; Permittivity; Perovskite; Perskovite-spinel; Phase pure; Piezoelectric; Piezoelectric energy harvesting; Piezoelectrics; Polarization; Polymer; Powder-based processing; Pyroelectric

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Magnetic, Ferroelectric, and Multiferroic Metal Oxides covers the fundamental and theoretical aspects of ferroics and magnetoelectrics, their properties, and important technological applications, serving as the most comprehensive, up-to-date reference on the subject. Organized in four parts, Dr. Biljana Stojanovic leads expert contributors in providing the context to understand the material (Part I: Introduction), the theoretical and practical aspects of ferroelectrics (Part II: Ferroelectrics: From Theory, Structure and Preparation to Application), magnetic metal oxides (Part III: Magnetic Oxides: Ferromagnetics, Antiferromagnetics and Ferrimagnetics), multiferroics (Part IV: Multiferroic Metal Oxides) and future directions in research and application (Part V: Future of Metal Oxide Ferroics and Multiferroics).

As ferroelectric materials are used to make capacitors with high dielectric constant, transducers, and actuators, and in sensors, reed heads, and memories based on giant magnetoresistive effects, this book will provide an ideal source for the most updated information.

Part I Ferroelectric Metal Oxides1. General View of Ferroelectrics: Origin of Ferroelectricity in Metal Oxide Ferroelectrics and Ferroelectric Propertie2. Perovskite and Aurivillius Type of Ferroelectric Metal Oxides3. Lead-free Ferroelectric Materials with Perovskite Structure4. Perovskite Layer Structured Ferroelectric

Section 2: Ferroelectric Metal Oxides: Synthesis and Deposition5. Review of Methods for Powder-Based Processing6. Chemical Synthesis and Epitaxial Growth Methods for Preparation of Ferroelectric Ceramics and Thin Films7. Nanosize Frroelectrics: Preparation, Properties and Applications 8. Nanosize BaTiO3-based systems9. Ecological, Lead-free Ferroelectrics

Section 3: Ferroelectric Metal Oxides Application10. Compositionally-graded Ferroelectric Ceramics and Multi-layers for Electronic and Sensing Applications11. Review of most common Relaxor Ferroelectrics and its Applications12. Tunable Ferroelectrics for Frequency Agile Microwave and THz Devices13. Piezoelectric Energy Harvest Device based on Quartz as Power Generator14. Nonvolatile Memories

Part II: Magnetic and Multiferroic Metal Oxides15. Theory of Ferrimagnetisms and Ferrimagnetic Metal Oxides16. Metal Oxides Structure, Crystal Chemistry and Magnetic Properties17. Review of Methods for the Preparation of Magnetic Metal Oxides18. Progress in Ferrite based Composite for Microwave Absorbing Applications19. Soft Ferrie Application20. Biomedical Applications

Section 5: Multiferroics: Fundamentals21. Ferroelectric Perovskite-Spinel Ferrite Ceramics 22. Single Phase, Composite and Laminate Multiferroics

Section 6: Multiferroic Metal Oxides: Properties and Applications23. Single and Heterostructure Multiferroic Thin Films24. BiFeO3 Ceramics and Thick Films: Processing Issues and Electromechanical Properties25. Properties of Single Multiferroics: Complex Transition Metal Oxides26. Bulk Composite Multiferroics: BaTiO3- Ferrites27. Complex Composites : Polymer Matrix-Ferroics or Multiferroics "28. Ferroelectric, Ferromagnetic and Multiferroic Heterostructures for Possible Applications as Tunnel Junctions

Scientists and researchers in the field of ferroelectrics, ferromagnetics, and multiferroics.

Biljana D. Stojanovic is a full professor at the Institute for Multidisciplinary Research University of Belgrade; she is also a full member of Academy of Engineering Sciences of Serbia-AESS (from 2004). Dr. Stojanovic is a member of EU Projects Committee CSO COST (2007-2013) and member of the Editorial Board of peer-reviewed scientific journals, International Scientific Conferences Boards, and International Sciences Societies. Among her many leadership roles, she has coordinated 68 national and international projects. Dr. Stojanovic has published more than 300 scientific articles and has been cited 2780 times, completed 150 technical projects, and authored 5 technical patents. Dr. Stojanovic has served as the plenary, invited and keynote speaker at International conferences. She is an expert in material science field, especially in the area of nanostructured complex oxides with ferroic properties. She has edited two books.
  • Addresses ferroelectrics, ferromagnetics and multiferroelectrics, providing a one-stop reference for researchers
  • Provides fundamental theory and relevant, important technological applications
  • Highlights their use in capacitors with high dielectric constant, transducers, and actuators, and in sensors, reed heads, and memories based on giant magnetoresistive effects