Magnetoelectric Composites

Auteur
Gopalan Srinivasan is a Distinguished Professor of Physics at Oakland University in Michigan. He graduated with a PhD from Indian Institute of Technology-Bombay (India) and was a Research Associate at West Virginia University and a Research Professor at Colorado State University. He joined Oakland University in 1988. Gopalan's research interests are the physics of multiferroics, magneto-electric effects in composites, and applications for sensors and signal processing devices. His research projects are supported by grants from the National Science Foundation and the DoD funding agencies. He has 4 patents, 350 publications, and more than 18,000 citations. Shashank Priya is Professor and Vice President for Research in the Department of Chemical Engineering and Materials Science at the University of Minnesota. His research is focused on multifunctional materials, energy harvesting, and bio-inspired systems. His research group is interdisciplinary, consisting of materials scientists, physicists, mechanical engineers, roboticists, and electrical engineers, which allows the group to conduct integrated research addressing several aspects at the material, component, and system level. He is the founder and chair of the Annual Energy Harvesting Society Meeting, he is a member of the Honorary Chair Committee for the International Workshop on Piezoelectric Materials and Applications (IWPMA), and he is a fellow of the American Ceramic Society.Nian Sun is a professor of Electrical and Computer Engineering, and Bioengineering, Director of the W.M. Keck Laboratory for Integrated Ferroics, Northeastern University, and founder and Chief Technology Advisor of Winchester Technologies, LLC. He received his Ph.D. degree from Stanford University. Dr. Sun was the recipient of the Humboldt Research Award, NSF CAREER Award, ONR Young Investigator Award, the Søren Buus Outstanding Research Award, Outstanding Translational Research Award, etc. His research interests include novel magnetic, ferroelectric and multiferroic materials, devices and microsystems, novel gas sensors and systems, etc. He has over 300 publications and over 30 patents and patent applications. One of his papers was selected as the ten most outstanding full papers in the past decade (2001~2010) in Advanced Functional Materials”. Dr. Sun has given over 180 plenary/keynote/invited presentations and seminars. He is an editor of Sensors, and IEEE Transactions on Magnetics, and an elected fellow of the IEEE.

Texte du rabat
Magnetoelectric Composites: Materials, Structures, and Applications, Second Edition summarizes the theory behind magnetoelectric phenomena and then introduces magnetoelectric materials and structures and the techniques used to fabricate and characterize them. Part two of the book looks at magnetoelectric devices: applications covered include magnetoelectric sensors, magnetoelectric antennas, transducers for energy harvesting, microwave and millimetre wave devices, and miniature magnetoelectric systems for biomedical applications. The final chapter discusses progress toward magnetoelectric memory. This new edition starts with the phenomena and theory of magnetoelectric materials in bulk laminates, thin-film heterostructures, and nanocomposites. On the magnetoelectric devices side, the contents have been significantly expanded to include energy harvesting, sensing, and magnetoelectric antennas. This book is suitable for materials scientists and engineers working on magnetoelectrics in academia and R&D.

Contenu

Part One: Introduction to magnetoelectric materials and phenomena 1. Theory of magnetoelectric phenomena in composites 2. Magnetic, piezoelectric and magnetoelectric materials and phenomena 3. Magnetoelectric characterization techniques (add magnetostriction, RFMag26, etc) 4. Layered multiferroic laminates 5. Magnetoelectric thin-film heterostructures 6. Multiferroic Nanocomposites with details on: Nanobilayers, Nanopillars, Core-shell particles and core-shell fibers.

Part Two: Magnetoelectric devices and applications 7. Magnetoelectric energy harvesters: from kHz to GHz 8. Magnetoelectric sensors based on bulk laminates 9. Magnetoelectric sensors based on magnetoelectric MEMS 10. Magnetoelectric sensors based on magnetoelectric NEMS 11. Magnetoelectric antennas for VLF 12. Magnetoelectric antennas for RF 13. Power, RF, microwave and millimeter-wave magnetoelectric devices (tunable inductors, filters, phase shifters, etc.) 14. Magnetoelectric composites for bio-medical application 15. Magnetoelectric spintronics 16. Outlook on magnetoelectrics