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Multiferroicity in atomic van der Waals heterostructures

Cheng Gong, Eun Mi Kim, Yuan Wang, Geunsik Lee () and Xiang Zhang ()
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Cheng Gong: University of California
Eun Mi Kim: Ulsan National Institute of Science and Technology
Yuan Wang: University of California
Geunsik Lee: Ulsan National Institute of Science and Technology
Xiang Zhang: University of California

Nature Communications, 2019, vol. 10, issue 1, 1-6

Abstract: Abstract Materials that are simultaneously ferromagnetic and ferroelectric – multiferroics – promise the control of disparate ferroic orders, leading to technological advances in microwave magnetoelectric applications and next generation of spintronics. Single-phase multiferroics are challenged by the opposite d-orbital occupations imposed by the two ferroics, and heterogeneous nanocomposite multiferroics demand ingredients’ structural compatibility with the resultant multiferroicity exclusively at inter-materials boundaries. Here we propose the two-dimensional heterostructure multiferroics by stacking up atomic layers of ferromagnetic Cr2Ge2Te6 and ferroelectric In2Se3, thereby leading to all-atomic multiferroicity. Through first-principles density functional theory calculations, we find as In2Se3 reverses its polarization, the magnetism of Cr2Ge2Te6 is switched, and correspondingly In2Se3 becomes a switchable magnetic semiconductor due to proximity effect. This unprecedented multiferroic duality (i.e., switchable ferromagnet and switchable magnetic semiconductor) enables both layers for logic applications. Van der Waals heterostructure multiferroics open the door for exploring the low-dimensional magnetoelectric physics and spintronic applications based on artificial superlattices.

Date: 2019
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DOI: 10.1038/s41467-019-10693-0

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