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Tunable vertical ferroelectricity and domain walls by interlayer sliding in $β$-ZrI$_{2}$

Published 12 May 2021 in cond-mat.mtrl-sci and cond-mat.other | (2105.05773v2)

Abstract: Vertical ferroelectricity where a net dipole moment appears as a result of in-plane ionic displacements has gained enormous attention following its discovery in transition metal dichalcogenides. Based on first-principles calculations, we report on the evidence of robust vertical ferroelectricity upon interlayer sliding in layered semiconducting $\beta$-ZrI${2}$, a sister material of polar semimetals MoTe${2}$ and WTe${2}$. The microscopic origin of ferroelectricity in ZrI${2}$ is attributed to asymmetric shifts of electronic charges within a trilayer, revealing a subtle interplay of rigid sliding displacements and charge redistribution down to ultrathin thicknesses. We further investigate the variety of ferroelectric domain boundaries and predict a stable charged domain wall with a quasi-two-dimensional electron gas and a high built-in electric field that can increase electron mobility and electromechanical response in multifunctional devices. Semiconducting behaviour and a small switching barrier of ZrI$_{2}$ hold promise for novel ferroelectric applications, and our results provide important insights for further development of slidetronics ferroelectricity.

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