Dielectric, magnetic and enhanced magnetoelectric response in high energy ball milling assisted BST-NZF particulate composite

Abstract

We report the Magnetoelectric (ME) response in 0–3 particulate composites of Ba_0.9Sr_0.1TiO₃–Ni_0.9Zn_0.1Fe_1.98O_4−Ϊ assisted by high energy ball milling. Dielectric and magnetic characterizations are found to follow combination and dilution properties, respectively. ME voltage coefficient (α_E) was found to increase with ferroelectric incorporation in composites and substantiated by the deviation of magnetic moment. The highest achieved α_E (144 mV/cm.Oe) was obtained with 80 wt. % of ferroelectric incorporation in composite at room temperature, which is significantly higher than previous reported value (533 μV/cm.Oe) in BST-NF composite. The origin of enhanced response has been addressed with the help of Magnetodielectric (MD) study.