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Electronic and optical properties of Janus-like hexagonal monolayer materials of group IV-VI

Rafael Barbosa, Danilo Kuritza, Gabriel H. Perin, R. H. Miwa, Renato B. Pontes, José E. Padilha

2023Physical Review Materials19 citationsDOI

Abstract

We report $ab\phantom{\rule{4pt}{0ex}}initio$ calculations of the electronic and optical response properties of Janus-like hexagonal monolayers materials of group IV-VI. By combining phonons spectra calculations and ab initio molecular dynamics simulations, we verify that some two-dimensional (2D) group IV-VI hexagonal materials are dynamically unstable. Our results of electronic band structure based on both density functional theory (DFT) with Heyd-Scuseria-Ernzerhof hybrid functional (HSE) and ${\mathrm{G}}_{0}{\mathrm{W}}_{0}$ formalisms indicate that the dynamically stable materials exhibit indirect band gaps. The calculations clearly reveal that the hexagonal crystal structure of the group IV-VI monolayers plays a crucial role not only in determining the width of the band gap but also on the electron-hole screening effect, and consequently the strength of the exciton binding energy. Despite their strong binding, exciton binding energies in these nanomaterials are found to be in agreement with a 2D Mott-Wannier model. We also show that most of the stable 2D materials exhibit strong optical absorbance in the visible range, being promising materials for ultra-thin-film photovoltaic applications. Thus, our systematic analysis on electronic and optical properties of hexagonal monolayer materials of group IV-VI will complement forthcoming experimental measurements and can pave the way for technological applications of those materials.

Topics & Concepts

Materials scienceMonolayerDensity functional theoryExcitonBand gapAb initioJanusAb initio quantum chemistry methodsBinding energyWannier functionElectronic structureElectronic band structureCrystallographyCondensed matter physicsNanotechnologyComputational chemistryOptoelectronicsChemistryAtomic physicsPhysicsMoleculeOrganic chemistry2D Materials and ApplicationsQuantum Dots Synthesis And PropertiesZnO doping and properties
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