Ze Zhang scite author profile

Defects usually play an important role in tailoring various properties of two-dimensional materials. Defects in two-dimensional monolayer molybdenum disulphide may be responsible for large variation of electric and optical properties. Here we present a comprehensive joint experiment–theory investigation of point defects in monolayer molybdenum disulphide prepared by mechanical exfoliation, physical and chemical vapour deposition. Defect species are systematically identified and their concentrations determined by aberration-corrected scanning transmission electron microscopy, and also studied by ab-initio calculation. Defect density up to 3.5 × 1013 cm−2 is found and the dominant category of defects changes from sulphur vacancy in mechanical exfoliation and chemical vapour deposition samples to molybdenum antisite in physical vapour deposition samples. Influence of defects on electronic structure and charge-carrier mobility are predicted by calculation and observed by electric transport measurement. In light of these results, the growth of ultra-high-quality monolayer molybdenum disulphide appears a primary task for the community pursuing high-performance electronic devices.

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Plasma-assisted fabrication of monolayer phosphorene and its Raman characterization

Nan

et al. 2014

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There have been continuous efforts to seek for novel functional two-dimensional semiconductors with high performance for future applications in nanoelectronics and optoelectronics. In this work, we introduce a successful experimental approach to fabricate monolayer phosphorene by mechanical cleavage and the following Ar + plasma thinning process. The thickness of phosphorene is unambiguously determined by optical contrast combined with atomic force microscope (AFM). Raman spectroscopy is used to characterize the pristine and plasma-treated samples. The Raman frequency of A 2 g mode stiffens, and the intensity ratio of A 2 g to A 1 g modes shows monotonic discrete increase with the decrease of phosphorene thickness down to monolayer. All those phenomena can be used to identify the thickness of this novel two-dimensional semiconductor efficiently. This work for monolayer phosphorene fabrication and thickness determination will facilitates the research of phosphorene.

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Electron states, magnetism, and the Verwey transition in magnetite

Zhang¹,

Satpathy²

1991

Phys. Rev. B

679

448

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Single‐Crystalline Iron Oxide Nanotubes

et al. 2005

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Delicate control of crystallographic facet-oriented Cu2O nanocrystals and the correlated adsorption ability

et al. 2009

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In this work, we demonstrate the systematic and delicate geometry control of Cu 2 O nanocrystals by taking advantage of the selective surface stabilization effect. A variety of Cu 2 O architectures, evolved from cubes through truncated cubes, cubooctahedrons, truncated octahedrons and finally to octahedrons, were achieved by simply adjusting the added PVP. Based on the understanding of the intrinsic structural features of the cuprite Cu 2 O and PVP, we elucidated the underlying shape evolution mechanism. The as-prepared products demonstrated a crystallography-dependent adsorption ability with methyl orange (MeO) as the pollutant. With the advantage of a low cost, high yield and straightforward procedure without pre-formed crystals as sacrificial templates, this method may provide a good starting point for the study of shape construction and morphology-dependent properties of other nanocrystals.

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Ze Zhang

Exploring atomic defects in molybdenum disulphide monolayers

Plasma-assisted fabrication of monolayer phosphorene and its Raman characterization

Electron states, magnetism, and the Verwey transition in magnetite

Single‐Crystalline Iron Oxide Nanotubes

Delicate control of crystallographic facet-oriented Cu2O nanocrystals and the correlated adsorption ability

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