Metallic glass/PVDF magnetoelectric laminates for resonant sensors and actuators: a review

Among magnetoelectric (ME) heterostructures, ME laminates of the type Metglas-like / PVDF (magnetostrictive+piezoelectric constituents) have shown the highest induced ME voltages, usually detected at the magnetoelastic resonance of the magnetostrictive constituent. This ME coupling happens because o...

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Bibliographic Details
Main Author: Gutiérrez, J. (author)
Other Authors: Lasheras, A. (author), Martins, Pedro Libânio Abreu (author), Pereira, Nelson Miguel Macedo da Silva (author), Barandiarán, J. M. (author), Lanceros-Méndez, S. (author)
Format: article
Language:eng
Published: 2017
Subjects:
Magnetoelectrics
Magnetoelectric heterostructures
Magnetoelectric sensors
Science & Technology
Online Access:http://hdl.handle.net/1822/48505
Country:Portugal
Oai:oai:repositorium.sdum.uminho.pt:1822/48505
Description
Summary:Among magnetoelectric (ME) heterostructures, ME laminates of the type Metglas-like / PVDF (magnetostrictive+piezoelectric constituents) have shown the highest induced ME voltages, usually detected at the magnetoelastic resonance of the magnetostrictive constituent. This ME coupling happens because of the high cross-correlation coupling between magnetostrictive and piezoelectric material, and is usually associated with a promising application scenario for sensors or actuators. In this work we detail the basis of the operation of such devices, as well as some arising questions (as size effects) concerning their best performance. Also, some examples of their use as very sensitive magnetic fields sensors or innovative energy harvesting devices will be reviewed. At the end, the challenges, future perspectives and technical difficulties that will determine the success of ME composites for sensor applications are discussed.

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