Engineering Optical and Electronic Properties of WS2 by Varying the Number of Layers

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2015 Jul 7

PMID 26143940

Citations 10

Authors

Hyun-Cheol Kim

Hakseong Kim

Jae-Ung Lee

Han-Byeol Lee

Doo-Hua Choi

Jun-Ho Lee

Wi Hyoung Lee

Sung Ho Jhang

Bae Ho Park

Hyeonsik Cheong

Sang-Wook Lee

Hyun-Jong Chung

Affiliations

Soon will be listed here.

Abstract

The optical constants, bandgaps, and band alignments of mono-, bi-, and trilayer WS2 were experimentally measured, and an extraordinarily high dependency on the number of layers was revealed. The refractive indices and extinction coefficients were extracted from the optical-contrast oscillation for various thicknesses of SiO2 on a Si substrate. The bandgaps of the few-layer WS2 were both optically and electrically measured, indicating high exciton-binding energies. The Schottky-barrier heights (SBHs) with Au/Cr contact were also extracted, depending on the number of layers (1-28). From an engineering viewpoint, the bandgap can be modulated from 3.49 to 2.71 eV with additional layers. The SBH can also be reduced from 0.37 eV for a monolayer to 0.17 eV for 28 layers. The technique of engineering materials' properties by modulating the number of layers opens pathways uniquely adaptable to transition-metal dichalcogenides.

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