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Ultra-thin 2D transition metal monochalcogenide crystals by planarized reactions
Journal
npj 2D Materials and Applications
Journal Volume
5
Journal Issue
1
Date Issued
2021
Author(s)
Chin H.-T. et al.
Abstract
We here present a planarized solid-state chemical reaction that can produce transition metal monochalcogenide (TMMC) 2D crystals with large lateral extent and finely controllable thickness down to individual layers. The enhanced lateral diffusion of a gaseous reactant at the interface between a solid precursor and graphene was found to provide a universal route towards layered TMMCs of different compositions. A unique layer-by-layer growth mechanism yields atomically abrupt crystal interfaces and kinetically controllable thickness down to a single TMMC layer. Our approach stabilizes 2D crystals with commonly unattainable thermodynamic phases, such as β-Cu2S and γ-CuSe, and spectroscopic characterization reveals ultra-large phase transition depression and interesting electronic properties. The presented ability to produce large-scale 2D crystals with high environmental stability was applied to highly sensitive and fast optoelectronic sensors. Our approach extends the morphological, compositional, and thermodynamic complexity of 2D materials. ? 2021, The Author(s).
Subjects
Crystals; Electronic properties; Transition metals; Crystal interfaces; Environmental stability; Lateral diffusion; Layer-by-layer growth; Opto-electronic sensors; Solid state chemical reactions; Spectroscopic characterization; Thermodynamic phasis; Phase transitions
Type
journal article