Litcius/Paper detail

Manipulation of Valley and Spin Properties in Two-Dimensional Janus WSiGeZ<sub>4</sub> (Z = N, P, As) through Symmetry Control

Sajjan Sheoran, Ankita Phutela, Ruman Moulik, Saswata Bhattacharya

2023The Journal of Physical Chemistry C17 citationsDOI

Abstract

A class of septuple-atomic-layer two-dimensional (2D) materials, MA 2 Z 4, is sought as an alternative to 2D hexagonal transition metal dichalcogenides in the fields of valleytronics and spintronics. In these materials, the structural symmetry can be varied by changing the stacking of its three parts in the monolayer. We use first-principles calculations to show that in the Janus monolayer WSiGeZ 4 (Z = N, P, As), Berry curvature and the Rashba effect are enhanced by modifying the stacking orders. The intrinsic electric field and composition of the d orbitals play a dominant role in determining these properties. Berry curvature is strengthened by up to 300% compared to its ground state through symmetry control, along with a significant increment in the Rashba coefficient. Moreover, monolayers WSiGeP 4 and WSiGeAs 4 have multiple valleys, implying another valley-dimension. The interesting spin-valley physics tunability in septuple-atomic-layer 2D materials suggests their exceptional potential for spintronic and valleytronic applications.

Topics & Concepts

ValleytronicsCondensed matter physicsBerry connection and curvatureSpintronicsJanusMonolayerElectric fieldPoint reflectionPhysicsAtomic orbitalZeeman effectMaterials scienceQuantum mechanicsFerromagnetismNanotechnologyGeometric phaseMagnetic fieldElectron2D Materials and ApplicationsGraphene research and applicationsElectronic and Structural Properties of Oxides