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Ferroic Materials-Based Technologies
About This Book
FERROIC MATERIALS-BASED TECHNOLOGIES
The book addresses the prospective, relevant, and original research developments in the ferroelectric, magnetic, and multiferroic fields.
Ferroic materials have sparked widespread attention because they represent a broad spectrum of elementary physics and are employed in a plethora of fields, including flexible memory, enormous energy harvesting/storage, spintronic functionalities, spin caloritronics, and a large range of other multi-functional devices.
With the application of new ferroic materials, strong room-temperature ferroelectricity with high saturation polarization may be established in ferroelectric materials, and magnetism with significant magnetization can be accomplished in magnetic materials. Furthermore, magnetoelectric interaction between ferroelectric and magnetic orderings is high in multiferroic materials, which could enable a wide range of innovative devices. Magnetic, ferroelectric, and multiferroic 2D materials with ultrathin characteristics above ambient temperature are often expected to enable future miniaturization of electronics beyond Moore's law for energy-efficient nanodevices. This book addresses the prospective, relevant, and original research developments in the ferroelectric, magnetic, and multiferroic fields.
Audience
The book will interest materials scientists, physicists, and engineers working in ferroic and multiferroic materials.
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Table of contents
- Cover
- Table of Contents
- Series Page
- Title Page
- Copyright Page
- Preface
- 1 Ferroic Materials: From Past to Present
- 2 An Overview of Ferroic Materials
- 3 Future Perspectives of Ferroic/Multiferroic Materials
- 4 Basic Principles and Measurement Techniques of Electrocaloric Effect in Ferroelectric Materials
- 5 Ferroelectric/Ferroelastoelectric Materials: Preparation, Improvement, and Characterizations
- 6 Elastocaloric Effect in Ferroelectric Materials
- 7 Effective Flexomagnetic/Flexoelectric Sensitivity in Ferroics/Nanosized Ferroic Materials
- 8 Advancements in Ferroic Thin Films, Multilayers, and Heterostructures
- 9 Physics of Multiferroic Materials
- 10 Overview of Comparison Between Primary Ferroic Crystals with Secondary Ferroic Crystals
- 11 Robust Domain Boundary Engineering of Ferroic and Multiferroic Materials
- 12 Magnetoelectric, Dielectric, and Optical Characteristics of Ferroelectric and Antiferroelectric Materials
- 13 Ferroic Characteristics of Metal-Halide Perovskites
- Index
- End User License Agreement