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Lattice-Matched Metal–Semiconductor Heterointerface in Monolayer Cu<sub>2</sub>Te

Jingqi Feng, Huiying Gao, Tian Li, Xin Tan, Peng Xu, Menglei Li, Lin He, Donglin Ma

2021ACS Nano36 citationsDOI

Abstract

The interface between metals and semiconductors plays an essential role in two-dimensional electronic heterostructures, which has provided an alternative opportunity to realize next-generation electronic devices. Lattice-matched two-dimensional heterointerfaces have been achieved in polymorphic 2D transition-metal dichalcogenides MX2 with M = (W, Mo) and X = (Te, Se, S) through phase engineering; yet other transition-metal chalcogenides have been rarely reported. Here we show that a single layer of hexagonal Cu2Te crystal could be synthesized by one-step liquid–solid interface growth and exfoliation. Characterizations of atomically resolved scanning tunneling microscope reveal that the Cu2Te monolayer consists of two lattice-matched distinct phases, similar to the 1T and 1T′ phases of MX2. The scanning tunneling spectra identify the coexistence of the metallic 1T and semiconducting 1T′ phases within the chemically homogeneous Cu2Te crystals, as confirmed by density functional theory calculations. Moreover, the two phases could form nanoscale lattice-matched metal–semiconductor junctions with atomically sharp interfaces. These results suggest a promising potential for exploiting atomic-scale electronic devices in 2D materials.

Topics & Concepts

MonolayerHeterojunctionScanning tunneling microscopeMaterials scienceSemiconductorCondensed matter physicsTransition metalDensity functional theoryScanning tunneling spectroscopyHexagonal latticeNanotechnologyCrystallographyOptoelectronicsChemistryComputational chemistryPhysicsCatalysisBiochemistryAntiferromagnetism2D Materials and ApplicationsQuantum Dots Synthesis And PropertiesAdvanced Thermoelectric Materials and Devices
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