Tailoring physical properties of WS2nanosheets by defects control

Lei Tao; Yongli Song; Jian Liu; Xianjie Wang; Zhiguo Liu; Mingxue Huo; Yang Wang; Yu Sui

doi:10.1088/1361-6528/abb2c2

Tailoring physical properties of WS₂nanosheets by defects control

Lei Tao
, Yongli Song
, Jian Liu
, Xianjie Wang
, Zhiguo Liu
, Mingxue Huo
, Yang Wang
, Yu Sui

School of Astronautics

School of Physics, Harbin Institute of Technology
Harbin Institute of Technology
Harbin Institute of Technology
Peking University

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The controllable growth of high-quality transition metal dichalcogenides (TMDs) is crucial for their device applications, which rely on the atomic and quantitative understanding of the growth mechanism of TMDs. In this work, we propose a comprehensive picture of the growth of WS2 nanosheets via Monte Carlo simulation, and an extension of diffusion-limited growth under transition state theory is developed to describe heteroepitaxy growth of WS2. Theoretical results are in good agreement with the results of chemical vapor deposition that growth temperature dominates growth processes leading to samples with various densities of vacancy defects. The vacancy defects modify the photoluminescence and ferromagnetic behavior. Our work provides a pathway toward realizing controllable physical properties in 2D materials.

Original language	English
Article number	035601
Journal	Nanotechnology
Volume	32
Issue number	3
DOIs	https://doi.org/10.1088/1361-6528/abb2c2
State	Published - 15 Jan 2021

Keywords

CVD
Defect control
TMDs

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10.1088/1361-6528/abb2c2

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title = "Tailoring physical properties of WS2nanosheets by defects control",

abstract = "The controllable growth of high-quality transition metal dichalcogenides (TMDs) is crucial for their device applications, which rely on the atomic and quantitative understanding of the growth mechanism of TMDs. In this work, we propose a comprehensive picture of the growth of WS2 nanosheets via Monte Carlo simulation, and an extension of diffusion-limited growth under transition state theory is developed to describe heteroepitaxy growth of WS2. Theoretical results are in good agreement with the results of chemical vapor deposition that growth temperature dominates growth processes leading to samples with various densities of vacancy defects. The vacancy defects modify the photoluminescence and ferromagnetic behavior. Our work provides a pathway toward realizing controllable physical properties in 2D materials.",

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author = "Lei Tao and Yongli Song and Jian Liu and Xianjie Wang and Zhiguo Liu and Mingxue Huo and Yang Wang and Yu Sui",

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T1 - Tailoring physical properties of WS2nanosheets by defects control

AU - Tao, Lei

AU - Song, Yongli

AU - Liu, Jian

AU - Wang, Xianjie

AU - Liu, Zhiguo

AU - Huo, Mingxue

AU - Wang, Yang

AU - Sui, Yu

PY - 2021/1/15

Y1 - 2021/1/15

N2 - The controllable growth of high-quality transition metal dichalcogenides (TMDs) is crucial for their device applications, which rely on the atomic and quantitative understanding of the growth mechanism of TMDs. In this work, we propose a comprehensive picture of the growth of WS2 nanosheets via Monte Carlo simulation, and an extension of diffusion-limited growth under transition state theory is developed to describe heteroepitaxy growth of WS2. Theoretical results are in good agreement with the results of chemical vapor deposition that growth temperature dominates growth processes leading to samples with various densities of vacancy defects. The vacancy defects modify the photoluminescence and ferromagnetic behavior. Our work provides a pathway toward realizing controllable physical properties in 2D materials.

AB - The controllable growth of high-quality transition metal dichalcogenides (TMDs) is crucial for their device applications, which rely on the atomic and quantitative understanding of the growth mechanism of TMDs. In this work, we propose a comprehensive picture of the growth of WS2 nanosheets via Monte Carlo simulation, and an extension of diffusion-limited growth under transition state theory is developed to describe heteroepitaxy growth of WS2. Theoretical results are in good agreement with the results of chemical vapor deposition that growth temperature dominates growth processes leading to samples with various densities of vacancy defects. The vacancy defects modify the photoluminescence and ferromagnetic behavior. Our work provides a pathway toward realizing controllable physical properties in 2D materials.

KW - CVD

KW - Defect control

KW - TMDs

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U2 - 10.1088/1361-6528/abb2c2

DO - 10.1088/1361-6528/abb2c2

M3 - 文章

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AN - SCOPUS:85094097199

SN - 0957-4484

VL - 32

JO - Nanotechnology

JF - Nanotechnology

IS - 3

M1 - 035601

ER -

Tailoring physical properties of WS₂nanosheets by defects control

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Keywords

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