David Perello scite author profile

We demonstrate a room temperature semiconductor-metal transition in thin film MoTe2 engineered by strain. Reduction of the 2H-1T' phase transition temperature of MoTe2 to room temperature was realized by introducing a tensile strain of 0.2%. The observed first-order SM transition improved conductance ∼10 000 times and was made possible by an unusually large temperature-stress coefficient, which results from a large volume change and small latent heat. The demonstrated strain-modulation of the phase transition temperature is expected to be compatible with other TMDs enabling the 2D electronics utilizing polymorphism of TMDs along with the established materials.

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Seamless Stitching of Graphene Domains on Polished Copper (111) Foil

Nguyen

et al. 2014

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Seamless stitching of graphene domains on polished copper (111) is proved clearly not only at atomic scale by scanning tunnelling microscopy (STM) and transmission electron micoscopy (TEM), but also at the macroscale by optical microscopy after UV-treatment. Using this concept of seamless stitching, synthesis of 6 cm × 3 cm monocrystalline graphene without grain boundaries on polished copper (111) foil is possible, which is only limited by the chamber size.

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Visualizing Poiseuille flow of hydrodynamic electrons

Sulpizio

Ella

Rozen

et al. 2019

Nature

274

240

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Hydrodynamics is a general description for the flow of a fluid, and is expected to hold even for fundamental particles such as electrons when inter-particle interactions dominate. While various aspects of electron hydrodynamics were revealed in recent experiments, the fundamental spatial structure of hydrodynamic electrons, the Poiseuille flow profile, has remained elusive. In this work we provide the first real-space imaging of Poiseuille flow of an electronic fluid, as well as visualization of its evolution from ballistic flow. Utilizing a scanning nanotube single electron transistor, we image the Hall voltage of electronic flow through channels of high-mobility graphene. We find that the profile of the Hall field across the channel is a key physical quantity for distinguishing ballistic from hydrodynamic flow. We image the transition from flat, ballistic field profiles at low temperature into parabolic field profiles at elevated temperatures, which is the hallmark of Poiseuille flow. The curvature of the imaged profiles is qualitatively reproduced by Boltzmann calculations, which allow us to create a 'phase diagram' that characterizes the electron flow regimes. Our results provide long-sought, direct confirmation of Poiseuille flow in the solid state, and enable a new approach for exploring the rich physics of interacting electrons in real space.

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David Perello

Room Temperature Semiconductor–Metal Transition of MoTe₂ Thin Films Engineered by Strain

Seamless Stitching of Graphene Domains on Polished Copper (111) Foil

Visualizing Poiseuille flow of hydrodynamic electrons

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About

David Perello

Room Temperature Semiconductor–Metal Transition of MoTe2 Thin Films Engineered by Strain

Seamless Stitching of Graphene Domains on Polished Copper (111) Foil

Visualizing Poiseuille flow of hydrodynamic electrons

Contact Info

Product

Resources

About

Room Temperature Semiconductor–Metal Transition of MoTe₂ Thin Films Engineered by Strain