Multiferroic and Magnetoelectric Materials - Applications and Emerging Green Technologies

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This book comprehensively introduces the multiferroic and magnetoelectric materials, details the structural aspect and majorly focuses on the applicability part of the newly emerging non-toxic magnetoelectric and multiferroic materials, green synthesis techniques and energy harvesting applications. It covers in detail applications pertaining to energy harvesting, spintronic, photovoltaic and photo-catalysis, sensors, gyrators, gradiometer, transducers and memory storage devices. Eco-friendly lead free multiferroic-based smart materials are being increasingly used as sensors and actuators in nano- or micro-electromechanical systems (N/MEMS) devices. Magnetoelectric coupling-based N/MEMS devices are found to exhibit high-quality factor and can be integrated with radio frequency integrated circuits. The non-toxic magnetoelectric antenna has biomedical applications as well, especially in neurology. Further, the book classifies and describes the magnetoelectric and multiferroic materials-based applications into three types on the basis of direct magnetoelectric coupling, converse magnetoelectric coupling and combination of both direct and converse magnetoelectric coupling. Overall, the book concludes by summarizing the much-needed detailed analysis of green, non-toxic and viable commercial technology on magnetoelectric and multiferroic materials. Emerging concepts of quantum electromagnets, quantum criticality and cosmic string lab stimulation have also been briefly summarized.

Sommario

Introduction historical perspective and present development.- Synthesis techniques and measurements for various physical properties of multiferroic and magnetoelectric materials.- Sustainable Multiferroic and Magnetoelectric materials for energy harvesting applications.- Photovoltaic performance of sustainable multiferroic and magnetoelectric materials in green energy technology.- Magnetoelectric Multiferroics for Spintronic Applications.- Latest Updates on Magnetoelectric Coupling Based Devices and Applications in Surface Acoustic Wave Device Technology and Bio-medical Field.- Conclusion and future outlook on sustainable multiferroic and magnetoelectric materials based technologies.

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Dr. Manish Kumar obtained his M.Tech. degree in Ceramic Engineering from Indian Institute of Technology, Banaras Hindu University, Varanasi, and Ph.D. degree in Physics from Institute of Science, Department of Physics, Banaras Hindu University, Varanasi, India. At present, he is serving as Assistant Professor (Level-12) at Department of Physics, Atma Ram Sanatan Dharma College, University of Delhi. His research area focuses on environmental friendly multifunctional materials for energy and memory devices, materials for green energy solutions, multiferroics, magnetoelectrics, composites, perovskite materials for photovoltaic applications, supercapacitors, white light emitting materials, solar simulation via different software and DFT calculation. He has published more than 160 SCI/SCOPUS research publications in international journals and books of high repute, 08 books (published/in press) in Springer Nature, and 01 Indian patent. He is guiding number of Ph.D., M.Tech./M.Sc. and B.Sc./B.Tech. students as supervisor and/ co-supervisor. Dr. Kumar is serving/served as an Editor/Guest Editor in number of highly reputed journals such as, Scientific Reports (Nature), Materials Today Communications (Elsevier), ECS Sensors Plus (IOP, ECS), High Performance Polymers (SAGE),  Materials Today: Proceedings (Elsevier) and Springer Nature Books.
Dr. Samiksha Dabas is an Assistant Professor in the Department of Physics, Netaji Subhas University of Technology, New Delhi, India. She completed her M. Sc. and also Ph. D. in Physics from University of Delhi. Specific materials of research interest are the magnetoelectric multiferroic materials whose applications include energy storage & harvesting, spintronics, sensors and memory devices for next generation multifunctional devices. Further, her research domain includes electromagnetic interference shielding applications utilising materials based on ferrites-conducting polymers/MWCNT/MXenes. She is the reviewer of various national and international research journals. Besides, she has published many research publications in international journals of high repute for which she has also received “commendable research award”. She has also published an Indian patent on “Heterostructure device for harnessing solar energy”. She has been currently guiding a number of M. Sc. dissertation and Ph.D. students as supervisor and/or co-supervisor.

Riassunto

This book comprehensively introduces the multiferroic and magnetoelectric materials, details the structural aspect and majorly focuses on the applicability part of the newly emerging non-toxic magnetoelectric and multiferroic materials, green synthesis techniques and energy harvesting applications.  It covers in detail applications pertaining to energy harvesting, spintronic, photovoltaic and photo-catalysis, sensors, gyrators, gradiometer, transducers and memory storage devices. Eco-friendly lead free multiferroic-based smart materials are being increasingly used as sensors and actuators in nano- or micro-electromechanical systems (N/MEMS) devices. Magnetoelectric coupling-based N/MEMS devices are found to exhibit high-quality factor and can be integrated with radio frequency integrated circuits. The non-toxic magnetoelectric antenna has biomedical applications as well, especially in neurology. Further, the book classifies and describes the magnetoelectric and multiferroic materials-based applications into three types on the basis of direct magnetoelectric coupling, converse magnetoelectric coupling and combination of both direct and converse magnetoelectric coupling. Overall, the book concludes by summarizing the much-needed detailed analysis of green, non-toxic and viable commercial technology on magnetoelectric and multiferroic materials. Emerging concepts of quantum electromagnets, quantum criticality and cosmic string lab stimulation have also been briefly summarized.