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Kinetics-Limited Two-Step Growth of van der Waals Puckered Honeycomb Sb Monolayer

Zhi‐Qiang Shi, Huiping Li, Qian-Qian Yuan, Cheng-Long Xue, Yongjie Xu, Yang‐Yang Lv, Zhen‐Yu Jia, Yanbin Chen, Wenguang Zhu, Shao‐Chun Li

2020ACS Nano27 citationsDOIOpen Access PDF

Abstract

Puckered honeycomb Sb monolayer, the structural analog of black phosphorene, has been recently successfully grown by means of molecular beam epitaxy. However, little is known to date about the growth mechanism for such a puckered honeycomb monolayer. In this study, by using scanning tunneling microscopy in combination with first-principles density functional theory calculations, we unveil that the puckered honeycomb Sb monolayer takes a kinetics-limited two-step growth mode. As the coverage of Sb increases, the Sb atoms first form the distorted hexagonal lattice as the half layer, and then the distorted hexagonal half-layer transforms into the puckered honeycomb lattice as the full layer. These results provide the atomic-scale insight in understanding the growth mechanism of puckered honeycomb monolayer and can be instructive to the direct growth of other monolayers with the same structure.

Topics & Concepts

MonolayerHoneycomb structureMaterials scienceHoneycombScanning tunneling microscopevan der Waals forceDensity functional theoryCrystallographyEpitaxyChemical physicsStructural stabilityMolecular beam epitaxySelf-assemblyPhosphoreneGermaneneNanotechnologyKineticsLayer (electronics)GrapheneChemistryComputational chemistrySiliceneMoleculeComposite materialPhysicsOrganic chemistryQuantum mechanicsEngineeringStructural engineering2D Materials and ApplicationsGraphene research and applicationsAdvanced Thermoelectric Materials and Devices
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