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Prediction of protected band edge states and dielectric tunable quasiparticle and excitonic properties of monolayer MoSi2N4

Yabei Wu, Zhao Tang, Weiyi Xia, Weiwei Gao, Fanhao Jia, Yubo Zhang, Wenguang Zhu, Wenqing Zhang, Peihong Zhang

2022npj Computational Materials50 citationsDOIOpen Access PDF

Abstract

Abstract The electronic structure of two-dimensional (2D) materials are inherently prone to environmental perturbations, which may pose significant challenges to their applications in electronic or optoelectronic devices. A 2D material couples with its environment through two mechanisms: local chemical coupling and nonlocal dielectric screening effects. The local chemical coupling is often difficult to predict or control experimentally. Nonlocal dielectric screening, on the other hand, can be tuned by choosing the substrates or layer thickness in a controllable manner. Therefore, a compelling 2D electronic material should offer band edge states that are robust against local chemical coupling effects. Here it is demonstrated that the recently synthesized MoSi 2 N 4 is an ideal 2D semiconductor with robust band edge states protected from capricious environmental chemical coupling effects. Detailed many-body perturbation theory calculations are carried out to illustrate how the band edge states of MoSi 2 N 4 are shielded from the direct chemical coupling effects, but its quasiparticle and excitonic properties can be modulated through the nonlocal dielectric screening effects. This unique property, together with the moderate band gap and the thermodynamic and mechanical stability of this material, paves the way for a range of applications of MoSi 2 N 4 in areas including energy, 2D electronics, and optoelectronics.

Topics & Concepts

QuasiparticleCoupling (piping)DielectricSemiconductorMaterials scienceBand gapOptoelectronicsElectronic structureEnhanced Data Rates for GSM EvolutionExcitonMonolayerElectronicsCondensed matter physicsChemical physicsNanotechnologyPhysicsChemistryTelecommunicationsComputer sciencePhysical chemistryComposite materialSuperconductivity2D Materials and ApplicationsMXene and MAX Phase MaterialsAdvanced Photocatalysis Techniques
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