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Molecular Beam Epitaxy of Two-Dimensional Vanadium-Molybdenum Diselenide Alloys

Lei Zhang, Tong Yang, Xiaoyue He, Wen Zhang, Giovanni Vinai, Chi Sin Tang, Xinmao Yin, Piero Torelli, Yuan Ping Feng, Ping Kwan Johnny Wong, Andrew T. S. Wee

2020ACS Nano40 citationsDOI

Abstract

Two-dimensional (2D) alloys represent a versatile platform that extends the properties of atomically thin transition-metal dichalcogenides. Here, using molecular beam epitaxy, we investigate the growth of 2D vanadium-molybdenum diselenide alloys, VxMo1–xSe2, on highly oriented pyrolytic graphite and unveil their structural, chemical, and electronic integrities via measurements by scanning tunneling microscopy/spectroscopy, synchrotron X-ray photoemission, and X-ray absorption spectroscopy (XAS). Essentially, we found a critical value of x = ∼0.44, below which phase separation occurs and above which a homogeneous metallic phase is favored. Another observation is an effective increase in the density of mirror twin boundaries of constituting MoSe2 in the low V concentration regime (x ≤ 0.05). Density functional theory calculations support our experimental results on the thermal stability of 2D VxMo1–xSe2 alloys and suggest an H phase of the homogeneous alloys with alternating parallel V and Mo strips randomly in-plane stacked. Element-specific XAS of the 2D alloys, which clearly indicates quenched atomic multiplets similar to the case of 2H-VSe2, provides strong evidence for the H phase of the 2D alloys. This work provides a comprehensive understanding of the thermal stability, chemical state, and electronic structure of 2D VxMo1–xSe2 alloys, useful for the future design of 2D electronic devices.

Topics & Concepts

Molecular beam epitaxyMaterials scienceVanadiumX-ray absorption spectroscopyScanning tunneling microscopeMolybdenumX-ray photoelectron spectroscopyElectronic structureDiselenideChemical physicsEpitaxyCondensed matter physicsAbsorption spectroscopyNanotechnologyChemistryOpticsMetallurgyChemical engineeringPhysicsSeleniumLayer (electronics)Engineering2D Materials and ApplicationsGraphene research and applicationsMXene and MAX Phase Materials
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