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|a TK7874.887.M34 2017
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|a 620.192
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|a UAMI
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|a Lanceros-M?ndez, Senentxu.
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|a Magnetoelectric Polymer-Based Composites :
|b Fundamentals and Applications.
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|a Newark :
|b John Wiley & Sons, Incorporated,
|c 2017.
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|a 1 online resource (283 pages)
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|a text
|b txt
|2 rdacontent
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|a Cover -- Title Page -- Copyright -- Contents -- List of Contributors -- Preface and Acknowledgments -- Chapter 1 Magnetoelectric Effect of Functional Materials: Theoretical Analysis, Modeling, and Experiment -- 1.1 Introduction of Magnetoelectric Effect -- 1.1.1 Single-Phase Magnetoelectric Materials -- 1.1.2 Multiphase Materials -- 1.2 Applications of Magnetoelectric Effect -- 1.2.1 Magnetoelectric Sensors -- 1.2.2 Magnetoelectric Transducer -- 1.2.3 Magnetoelectric Microwave Devices -- 1.3 Magnetoelectric Effect of Piezoelectric Ceramic -- 1.4 Magnetoelectric Effect in Insulating Polymers -- 1.5 Conclusion -- Acknowledgments -- References -- Chapter 2 Materials Selection, Processing, and Characterization Technologies -- 2.1 Introduction -- 2.2 Materials Selection and Processing -- 2.2.1 Polymer as the Piezoelectric/Ferroelectric Phase -- 2.2.2 Piezoelectric Polymer as the Matrix -- 2.2.3 Non-piezoelectric Polymer as the Active Matrix -- 2.2.4 Polymer as the Binder -- 2.3 Characterization Technologies -- 2.3.1 Ferroelectric and Piezoelectric Characterization -- 2.3.1.1 Piezoelectric Characterization -- 2.3.1.2 Ferroelectric Characterization -- 2.3.2 Magnetostrictive and Magnetism Characterization -- 2.3.2.1 Magnetism Measurement -- 2.3.2.2 Magnetostriction Measurement -- 2.3.3 Characterization of Magnetoelectric Coupling -- 2.3.3.1 Direct Magnetoelectric Coupling -- 2.3.3.2 Converse Magnetoelectric Coupling -- 2.4 Concluding Remarks -- Acknowledgments -- References -- Chapter 3 Types of Polymer-Based Magnetoelectric Materials -- 3a Laminates -- 3a.1 Introduction -- 3a.2 Laminated Magnetoelectric Composites -- 3a.3 Piezoelectric Phase for Magnetoelectric Laminates -- 3a.3.1 PVDF and Its Copolymers -- 3a.3.2 Diamines -- 3.4a Magnetostrictive Phase for Magnetoelectric Laminates -- 3a.4.1 Metglas -- 3a.4.2 VITROVAC -- 3a.4.3 Terfenol-D.
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|a 3.5a Bonding Agent for Magnetoelectric Laminates -- 3a.6 Structures for Magnetoelectric Laminates -- 3a.7 Limitations and Remaining Challenges -- Acknowledgments -- References -- 3b Polymer-Based Magnetoelectric Composites: Polymer as a Binder -- 3b.1 Introduction -- 3b.2 Polymer-Based Tb1−xDyxFe2−y by Magnetic Warm Compaction -- 3b.2.1 Experiment for Magnetic Warm Compaction -- 3b.2.2 Results and Discussion of Magnetic Warm Compaction -- 3b.2.3 Conclusions for Magnetic Warm Compaction -- 3b.3 Multifaceted Magnetoelectric Composites -- 3b.3.1 Experiment for Multifaceted Magnetoelectric Composites -- 3b.3.2 Results and Discussion for Multifaceted Magnetoelectric Composites -- 3b.3.3 Conclusions for Multifaceted Magnetoelectric Composites -- 3b.4 Bonded Cylindrical Composites -- 3b.4.1 Experiment for Bonded Cylindrical Composites -- 3b.4.2 Results and Discussion for Bonded Cylindrical Composites -- 3b.4.3 Conclusions for Bonded Cylindrical Composites -- 3b.5 Multi-electrode Cylinder Composites -- 3b.5.1 Experiment for Multi-electrode Cylinder Composites -- 3b.5.2 Results and Discussion for Multi-electrode Cylinder Composites -- 3b.5.3 Conclusions for Multi-electrode Cylinder Composites -- 3b.6 Polymer Content and Particle Size Effects -- 3b.6.1 Experiment for Polymer Content and Particle Size Effects -- 3b.6.2 Results and Discussion for Polymer Content and Particle Size Effects -- 3b.6.3 Conclusions for Polymer Content and Particle Size Effects -- Acknowledgments -- References -- Chapter 3c Poly(vinylidene fluoride)-Based Magnetoelectric Polymer Nanocomposite Films -- 3c.1 Introduction -- 3c.2 Ferroelectric Polymers -- 3c.2.1 Poly(Vinylidene Fluoride) -- 3c.2.2 Crystallization of -Phase PVDF -- 3c.2.2.1 By Solvent -- 3c.2.2.2 By the Temperature -- 3c.2.2.3 Electric Poling on PVDF -- 3c.3 The Selection of Magnetic Nanofillers.
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|a 3c.4 Experimental Methods -- 3c.4.1 Materials -- 3c.4.2 Synthesis of Magnetic Nanoparticles -- 3c.4.3 Fabrication of ME Polymer Nanocomposites -- 3c.5 Characterization -- 3c.5.1 IR Vibrational Studies -- 3c.5.2 Surface Analysis on the Composites -- 3c.5.3 Magnetic Studies on MPNCs -- 3c.5.4 Correlation of F() with Ferroelectric Parameters -- 3c.5.5 Magnetoelectric Effect in MPNCs -- 3c.6 Summary -- 3c.7 Future Directions -- Acknowledgments -- References -- Chapter 4 Low-Dimensional Polymer-Based Magnetoelectric Structures -- 4.1 Introduction -- 4.2 Magnetoelectric Spheres -- 4.3 Magnetoelectric Fibers -- 4.4 Magnetoelectric Membranes -- 4.5 Conclusions and Future Perspectives -- Acknowledgments -- References -- Chapter 5 Design of Magnetostrictive Nanoparticles for Magnetoelectric Composites -- 5.1 Introduction -- 5.1.1 Magnetoelectric Composites -- 5.1.2 Magnetostriction and Magnetostrictive Materials -- 5.1.3 Ferromagnetic Ferrites -- 5.1.4 Ferroelectric Perovskites -- 5.2 Synthesis Approaches to Produce Magnetostrictive Nanoparticles for Magnetoelectric Composites -- 5.2.1 Top-Down Production Approaches -- 5.2.1.1 Mechanosynthesis or Mechanical Attrition -- 5.2.1.2 Mechanical Alloying -- 5.2.1.3 Inert-Gas Condensation Approach -- 5.2.2 Bottom-Up Production Approaches -- 5.2.2.1 Solid-State Reaction -- 5.2.2.2 Pyrolysis -- 5.2.2.3 Wet-Chemical Approaches -- 5.3 Summary and Future Perspectives -- Acknowledgments -- References -- Chapter 6 Applications of Polymer-Based Magnetoelectric Materials -- 6a Sensors, Actuators, Antennas, and Memories -- 6a.1 Introduction -- 6a.2 Polymer-Based Magnetoelectric Sensors -- 6a.3 Polymer-Based Magnetoelectric Actuators -- 6a.4 Polymer-Based Magnetoelectric Antennas -- 6a.5 Polymer-Based Magnetoelectric Memories -- 6a.6 Opportunities, Limitations, and Remaining Challenges -- Acknowledgments -- References.
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|a 6b Magnetoelectric Composites for Bionics Applications -- 6b.1 Introduction -- 6b.2 Bionics -- 6b.2.1 Implantable Electrode Devices -- 6b.2.2 Organic Electrode Materials -- 6b.2.3 New Opportunities for Advanced Electrical Stimulation -- 6b.3 Cell Interactions and Electrical Stimulation -- 6b.3.1 Synthetic Polymer-Based ME -- 6b.3.2 Nanostructured and Nanoscale ME Materials -- 6b.3.3 ME Concept for Electrical Stimulation of Cells -- 6b.4 Future Biomaterials for ME Composites -- 6b.4.1 Piezoelectric DNA, Proteins, and Microorganisms -- 6b.4.2 ME Biopolymers: Cellulose -- 6b.5 Characterization Tools for Nanoscale ME -- 6b.5.1 Piezoresponse Force Microscopy (PFM) -- 6b.5.2 Bio-Atomic Force Microscopy (Bio-AFM) -- Acknowledgments -- References -- 6c Energy Harvesting -- 6c.1 Introduction -- 6c.2 Magnetoelectric Composites for Energy Harvesting -- 6c.2.1 Magnetostrictive Effect in Ferromagnetic Materials -- 6c.2.2 Piezoelectricity in Polymers -- 6c.2.3 Key Parameters, Equations, and Figures of Merit -- 6c.2.4 Magnetoelectric Effect in Piezoelectric-Ferromagnetic Composites -- 6c.3 Energy-Harvesting Devices Based on Magnetoelectric Composites -- 6c.4 Conclusion -- References -- 6d High-Temperature Polymers for Magnetoelectric Applications -- 6d.1 Introduction -- 6d.2 Types of Piezoelectric Polymers -- 6d.2.1 Piezocomposites -- 6d.2.2 Ferroelectrets -- 6d.2.3 Bulk Piezoelectric Polymers -- 6d.2.3.1 Semicrystalline Piezoelectric Polymers -- 6d.2.3.2 Amorphous Piezoelectric Polymers -- 6d.3 ME Effect Using Piezoelectric Polyimides -- 6d.4 Summary and Conclusions -- References -- Chapter 7 Open Questions, Challenges, and Perspectives -- References -- Index -- EULA.
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|t Magnetoelectric Polymer-Based Composites : Fundamentals and Applications.
|d Newark : John Wiley & Sons, Incorporated, ©2017
|z 9783527341276
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