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Direct visualization of out-of-equilibrium structural transformations in atomically thin chalcogenides

Engineering and Technology

Direct visualization of out-of-equilibrium structural transformations in atomically thin chalcogenides

P. Kumar, J. P. Horwath, et al.

Explore groundbreaking research by Pawan Kumar and colleagues, which visually captures the fascinating structural transformations in atomically thin transition metal dichalcogenides. Discover how different heating rates can lead to unexpectedly ordered crystalline structures or amorphous regions, unveiling new pathways for creating nano-scale materials.

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Playback language: English
Abstract
This research directly visualizes structural transformations in atomically thin layers of transition metal dichalcogenides (TMDCs) under non-equilibrium thermodynamic conditions using real-time, aberration-corrected scanning transmission electron microscopy. The study reveals a strong dependence of resulting structures and phases on heating rate and temperature. Fast heating (25 °C/sec) produces highly ordered crystalline hexagonal islands ( <20 nm) of 2H and 3R phases, while slow heating (25 °C/min) yields nanocrystalline and sub-stoichiometric amorphous regions. These differences are attributed to varying sulfur evaporation and redeposition rates. The ability to achieve highly crystalline, quantum-confined features using non-equilibrium heating rates offers a new synthesis route for atomically thin, laterally confined nanostructures.
Publisher
npj 2D Materials and Applications
Published On
Jun 12, 2020
Authors
Pawan Kumar, James P. Horwath, Alexandre C. Foucher, Christopher C. Price, Natalia Acero, Vivek B. Shenoy, Eric A. Stach, Deep Jariwala
Tags
transition metal dichalcogenides
nanostructures
crystallinity
non-equilibrium heating
structural transformations
sulfur evaporation
scanning transmission electron microscopy

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