Strain-Induced Magnetoelectric Coupling in FeO/BaTiO Nanopillar Composites.

Magnetoelectric coupling properties are limited to the substrate clamping effect in traditional ferroelectric/ferromagnetic heterostructures. Here, FeO/BaTiO nanopillar composites are successfully constructed. The well-ordered BaTiO nanopillar arrays are prepared through template-assisted pulsed laser deposition. The FeO layer is coated on BaTiO nanopillar arrays by atomic layer deposition. The nanopillar arrays and heterostructure are confirmed by scanning electron microscopy and transmission electron microscopy. A large thermally driven magnetoelectric coupling coefficient of 395 Oe °C near the phase transition of BaTiO (orthorhombic to rhombohedral) is obtained, indicating a strong strain-induced magnetoelectric coupling effect. The enhanced magnetoelectric coupling effect originated from the reduced substrate clamping effect and increased the interface area in nanopillar structures. This work opens a door toward cutting-edge potential applications in spintronic devices.