Abstract
MgZnO bulk has attracted much attention as candidates for application in optoelectronic devices in the blue and ultraviolet region. However, there has been no reported study regarding two-dimensional MgZnO monolayer in spite of its unique properties due to quantum confinement effect. Here, using density functional theory calculations, we investigated the phase stability, electronic structure and optical properties of MgxZn1−xO monolayer with Mg concentration x range from 0 to 1. Our calculations show that MgZnO monolayer remains the graphene-like structure with various Mg concentrations. The phase segregation occurring in bulk systems has not been observed in the monolayer due to size effect, which is advantageous for application. Moreover, MgZnO monolayer exhibits interesting tuning of electronic structure and optical properties with Mg concentration. The band gap increases with increasing Mg concentration. More interestingly, a direct to indirect band gap transition is observed for MgZnO monolayer when Mg concentration is higher than 75 at %. We also predict that Mg doping leads to a blue shift of the optical absorption peaks. Our results may provide guidance for designing the growth process and potential application of MgZnO monolayer.
Highlights
Two-dimensional (2D) materials present rather unique and exceptional properties due to the restrictions of size in one dimension and emerging 2D confinement effects
Our results show that different from bulk system, the phase segregation has not been observed in the monolayer due to size effect
We report for the first time the first-principles investigations of phase stability, electronic structure, we and optical of the
Summary
Two-dimensional (2D) materials present rather unique and exceptional properties due to the restrictions of size in one dimension and emerging 2D confinement effects. They are easier to fabricate into complex structures than in 1D state. As the allotrope of superior bulk ZnO, the 2D. ZnO sheet logically triggers the scientists’ interest [6,7,8,9,10,11,12,13,14,15,16]. The 2D ZnO sheet was firstly theoretically predicted by Freeman, where Zn and O atoms are arranged in planar sheet like in the hexagonal
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