Amber McCreary scite author profile

The rise of two-dimensional (2D) materials research took place following the isolation of graphene in 2004. These new 2D materials include transition metal dichalcogenides, mono-elemental 2D sheets, and several carbide-and nitride-based materials. The number of publications related to these emerging materials has been drastically increasing over the last five years. Thus, through this comprehensive review, we aim to discuss the most recent groundbreaking discoveries as well as emerging opportunities and remaining challenges. This review starts out by delving into the improved methods of producing these new 2D materials via controlled exfoliation, metal organic chemical vapor deposition, and wet chemical means. We look into recent studies of doping as well as the optical properties of 2D materials and their heterostructures. Recent advances towards applications of these materials in 2D electronics are also reviewed, and include the tunnel MOSFET and ways to reduce the contact resistance for fabricating highquality devices. Finally, several unique and innovative applications recently explored are discussed as well as perspectives of this exciting and fast moving field.

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Optical identification of sulfur vacancies: Bound excitons at the edges of monolayer tungsten disulfide

Carôzo

et al. 2017

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Metal to Insulator Quantum-Phase Transition in Few-Layered ReS₂

et al. 2015

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In ReS 2 a layer-independent direct band-gap of 1.5 eV implies a potential for its use in optoelectronic applications. ReS 2 crystallizes in the 1T'-structure which leads to anisotropic physical properties and whose concomitant electronic structure might host a non-trivial topology. Here, we report an overall evaluation of the anisotropic Raman response and the transport properties of fewlayered ReS 2 field-effect transistors. We find that ReS 2 exfoliated on SiO 2 behaves as an n-type semiconductor with an intrinsic carrier mobility surpassing µ i ~30 cm 2 /Vs at T = 300 K which increases up to ~350 cm 2 /vs at 2 K. Semiconducting behavior is observed at low electron densities n, but at high values of n the resistivity decreases by a factor > 7 upon cooling to 2 K and displays a metallic T 2 -dependence. This indicates that the band structure of 1T'-ReS 2 is quite susceptible to an electric field applied perpendicularly to the layers. The electric-field induced metallic state observed in transition metal dichalcogenides was recently claimed to result from a percolation type of transition. Instead, through a scaling analysis of the conductivity as a function of T and n, we find that the metallic state of ReS 2 results from a second-order metal to insulator transition driven by electronic correlations. This gate-induced metallic state offers an alternative to phase engineering for producing ohmic contacts and metallic interconnects in devices based on transition metal dichalcogenides.

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CVD-grown monolayered MoS ₂ as an effective photosensor operating at low-voltage

et al. 2014

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We report the fabrication of a photosensor based on as-grown single crystal monolayers of MoS2 synthesized by chemical vapor deposition (CVD). The measurements were performed using Au/Ti leads in a two terminal configuration on CVD-grown MoS2 on a SiO2/Si substrate. The device was operated in air at room temperature at low bias voltages ranging from −2 V to 2 V and its sensing capabilities were tested for two different excitation wavelengths (514.5 nm and 488 nm). The responsivity reached 1.1 mA W−1 when excited with a 514.5 nm laser at a bias of 1.5 V. This responsivity is one order of magnitude larger than that reported from photo devices fabricated using CVD-grown multilayered WS2. A rectifying-effect was observed for the optically excited current, which was four times larger in the direct polarization bias when compared to the reverse bias photocurrent. Such rectifying behavior can be attributed to the asymmetric electrode placement on the triangular MoS2 monocrystal. It is envisioned that these components could eventually be used as efficient and low cost photosensors based on CVD-grown transition metal dichalcogenide monolayers.

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Amber McCreary

2D materials advances: from large scale synthesis and controlled heterostructures to improved characterization techniques, defects and applications

Optical identification of sulfur vacancies: Bound excitons at the edges of monolayer tungsten disulfide

Metal to Insulator Quantum-Phase Transition in Few-Layered ReS₂

CVD-grown monolayered MoS ₂ as an effective photosensor operating at low-voltage

Contact Info

Product

Resources

About

Amber McCreary

2D materials advances: from large scale synthesis and controlled heterostructures to improved characterization techniques, defects and applications

Optical identification of sulfur vacancies: Bound excitons at the edges of monolayer tungsten disulfide

Metal to Insulator Quantum-Phase Transition in Few-Layered ReS2

CVD-grown monolayered MoS 2 as an effective photosensor operating at low-voltage

Contact Info

Product

Resources

About

Metal to Insulator Quantum-Phase Transition in Few-Layered ReS₂

CVD-grown monolayered MoS ₂ as an effective photosensor operating at low-voltage