Possibility of Combining Ferroelectricity and Rashba-like spin splitting in Monolayers of 1T-type Transition-Metal Dichalcogenides MX2

TL;DR

This study uses first-principles calculations to investigate the coupling of ferroelectricity and Rashba-like spin splitting in monolayer 1T transition-metal dichalcogenides, revealing switchable spin polarization linked to ferroelectric phases.

Contribution

It demonstrates the potential to induce and control Rashba-like spin splitting through ferroelectric polarization in monolayer MX2 materials with specific structural distortions.

Findings

Switchable Rashba-like spin polarization predicted in trimerized polytype.

Ferroelectric phase persists in monolayer limit for certain structures.

Stability of polar and nonpolar phases varies among different MX2 compounds.

Abstract

First-principles calculations were carried out to explore the possible coupling between spin-polarized electronic states and ferroelectric polarization in monolayers of transition-metal dichalcogenides MX 2 (M = Mo, W; X = S, Se, Te) with distorted octahedrally coordinated 1T structures.For d^2 metal ions, two competing metal clustering effects can take place, where metal ions are arranged in trimers or zigzag chains. Among these, the former structural distortion comes along with an improper ferroelectric phase which persists in the monolayer limit. Switchable Rashba-like spin-polarization features are predicted in the trimerized polytype, which can be permanently tuned by acting on its ferroelectric properties. The polar trimerized structure is found to be stable for 1T-MoS 2 only, while the nonpolar polytype with zigzag metal clustering is predicted to stabilize for other transition-metal dichalcogenides with d 2 metal ions.