Inversion-asymmetric kagome monolayers: A platform for Rashba effect and two-dimensional piezoelectricity

自旋电子学 压电 凝聚态物理 偶极子 拉希巴效应 不对称 材料科学 单层 半导体 等结构 点反射 联轴节(管道) 物理 基态 自旋(空气动力学) 电子结构 极化(电化学) 电子能带结构 电偶极矩
作者
Zi Chun Liu,Yang Liu,Wei Wang,Jizheng Wu,Xiuxiu Zhang,Si Chen
出处
期刊:Physical review [American Physical Society]
卷期号:112 (19)
标识
DOI:10.1103/cs6f-m38l
摘要

The breathing kagome lattice, a variant of the kagome structure characterized by inversion-symmetry breaking and geometric frustration, provides a fertile ground for realizing unconventional electronic functionalities. Here, using first-principles calculations, we identify 18 stable two-dimensional ${M}_{3}{QX}_{7}$ compounds ($M=\mathrm{Nb}$,Ta; $Q=\mathrm{S}$,Se,Te; $X=\mathrm{Cl}$,Br,I) that host transition-metal-based breathing kagome motifs. Unlike their Mott-insulating, isostructural ${M}_{3}{X}_{8}$ counterparts, these ${M}_{3}{QX}_{7}$ monolayers are nonmagnetic semiconductors driven by molecular-orbital splitting in embedded ${M}_{3}{X}_{12}Q$ clusters. Remarkably, a pronounced Rashba spin splitting (RSS) appears in the lowest conduction band (LCB) and can be effectively tuned via biaxial strain. A k \ifmmode\cdot\else\textperiodcentered\fi{} p analysis shows that the electronic state of the LCB at the \ensuremath{\Gamma} point transforms as the ${E}_{1/2}$ double-group representation of the ${C}_{3v}$ point group, thereby permitting linear-in-$k$ spin-orbit coupling terms that produce the observed RSS. Moreover, ${M}_{3}{QX}_{7}$ monolayers display the rare coexistence of in-plane and out-of-plane piezoelectric responses, in contrast to conventional two-dimensional piezoelectrics whose polarization is confined to the basal plane. The out-of-plane dipole moment (${\ensuremath{\mu}}_{\mathrm{z}}$) and the surface asymmetry in Born effective charges ($|{Z}_{\mathrm{Bottom}}^{*}\ensuremath{-}{Z}_{\mathrm{Top}}^{*}|$) serve as quantitative descriptors of the vertical piezoelectric response, providing a microscopic understanding of its origin. Due to the exceptional mechanical flexibility of this system, both in-plane and out-of-plane responses reach sizeable magnitudes. These findings not only demonstrate the potential of ${M}_{3}{QX}_{7}$ monolayers for integration into spintronic and piezotronic devices, but they also offer new insights into emergent properties in intrinsically inversion-symmetry-broken breathing kagome lattices.
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