Magnetoelectric Coupling in Ordered Arrays of Multilayered Heteroepitaxial BaTiO&lt;sub&gt;3&lt;/sub&gt;/CoFe&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;4&lt;/sub&gt; Nanodots

Xiaoli Lu (423497); Yunseok Kim (1439542); Silvana Goetze (2177616); Xiaoguang Li (148206); Sining Dong (1472158); Peter Werner (99498); Marin Alexe (1525840); Dietrich Hesse (1925497)

JOURNAL ARTICLE

Magnetoelectric Coupling in Ordered Arrays of Multilayered Heteroepitaxial BaTiO3/CoFe2O4 Nanodots

Xiaoli Lu (423497)Yunseok Kim (1439542)Silvana Goetze (2177616)Xiaoguang Li (148206)Sining Dong (1472158)Peter Werner (99498)Marin Alexe (1525840)Dietrich Hesse (1925497)

Year: 2016 Journal: OPAL (Open@LaTrobe) (La Trobe University) Publisher: La Trobe University

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Abstract

Fully epitaxial BaTiO3/CoFe2O4 ferroelectric/ferromagnetic multilayered nanodot arrays, a new type of magnetoelectric (ME) nanocomposite with both horizontal and vertical orderings, were fabricated via a stencil-derived direct epitaxy technique. By reducing the clamping effect, ferroelectric domain modification and distinct magnetization change proportional to different interfacial area around the BaTiO3 phase transition temperatures were found, which may pave the way to quantitative introducing of ME coupling at nanoscale and build high density multistate memory devices.

Keywords:

Nanodot Epitaxy Coupling (piping) Ferroelectricity Nanoscopic scale Magnetization Clamping Phase transition Phase (matter)

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