Mn0.7Zn0.3Fe2O4 + BaTiO3 composites: structural, morphological, magnetic, M–E effect and dielectric properties

Choudhari, S. S.; Shelke, S. B.; Batoo, Khalid Mujassam; Adil, Syed Farooq; Kadam, A. B.; Imran, Ahamad; Hadi, Muhammad Hanif; Raslan, Emad H.; Shirsath, Sagar E.; Kadam, R. H.

doi:10.1007/s10854-021-05686-z

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Mn0.7Zn0.3Fe2O4 + BaTiO3 composites: structural, morphological, magnetic, M–E effect and dielectric properties

Author(s): S. S. Choudhari , S. B. Shelke , Khalid Mujassam Batoo , Syed Farooq Adil , A. B. Kadam , Ahamad Imran , Muhammad Hadi , Emad H. Raslan , Sagar E. Shirsath , R. H. Kadam

Publication date (Electronic): March 17 2021

Journal: Journal of Materials Science: Materials in Electronics

Publisher: Springer Science and Business Media LLC

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Most cited references 42

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Materials science. The renaissance of magnetoelectric multiferroics.

Nicola Spaldin, Manfred Fiebig (2005)

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Multiferroic and magnetoelectric materials.

W Eerenstein, N Mathur, J. Scott (2006)

A ferroelectric crystal exhibits a stable and switchable electrical polarization that is manifested in the form of cooperative atomic displacements. A ferromagnetic crystal exhibits a stable and switchable magnetization that arises through the quantum mechanical phenomenon of exchange. There are very few 'multiferroic' materials that exhibit both of these properties, but the 'magnetoelectric' coupling of magnetic and electrical properties is a more general and widespread phenomenon. Although work in this area can be traced back to pioneering research in the 1950s and 1960s, there has been a recent resurgence of interest driven by long-term technological aspirations.