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| Ertürk, Emre |
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| Azevedo, Nuno Monteiro |
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Manzoor, Sadia
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- 2022SURFACE MICROHARDNESS OF MICROHYBRID AND NANOCOMPOSITE AFTER STORAGE IN MOUTH WASHEScitations
- 2019Reversible electric-field-driven magnetization in a columnar nanocomposite filmcitations
- 2017Giant room temperature magnetoelectric response in strain controlled nanocompositescitations
- 2013Annealing control of magnetic anisotropy and phase separation in CoFe2O4-BaTiO3 nanocomposite filmscitations
- 2013Dependence of magnetoelectric properties on the magnetostrictive content in 0–3 compositescitations
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article
Dependence of magnetoelectric properties on the magnetostrictive content in 0–3 composites
Abstract
he magnetoelectric response in composites of barium titanate (BTO) and cobalt ferrite (CFO) has been determined by measuring the magnetoelectric susceptibility coefficient. This was done by two different methods: magnetocapacitance measurements and magnetoelectric voltage measurement using a lock-in technique. These composites were prepared by the sol–gel method. Four different compositions with different molar ratios of the magnetostrictive phase (CFO) embedded in a piezoelectric matrix of BTO were studied to investigate the effect of the magnetostrictive content and the number density of interfaces on the magnetoelectric response. It was found from both techniques that the magnetoelectric coupling effect increases with the increase of applied field and it had a non-linear dependence on the percentage of magnetostrictive content in the composites.