A universal method for rapid and large‐scale growth of layered crystals

Apoorva Chaturvedi; Bo Chen; Keke Zhang; Qiyuan He; Gwang‐Hyeon Nam; Lu You; Zhuangchai Lai; Chaoliang Tan; Thu Ha Tran; Guigao Liu; Jiadong Zhou; Zheng Liu; Junling Wang; Edwin H. T. Teo; Hua Zhang

doi:10.1002/smm2.1011

A universal method for rapid and large‐scale growth of layered crystals

Apoorva Chaturvedi
, Bo Chen
, Keke Zhang
, Qiyuan He
, Gwang‐Hyeon Nam
, Lu You
, Zhuangchai Lai
, Chaoliang Tan
, Thu Ha Tran
, Guigao Liu
, Jiadong Zhou
, Zheng Liu
, Junling Wang
, Edwin H. T. Teo
, Hua Zhang^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

43 Citations (Scopus)

95 Downloads (CityUHK Scholars)

Abstract

Layered van der Waals (vdW) materials, consisting of atomically thin layers, are of paramount importance in physics, chemistry, and materials science owing to their unique properties and various promising applications. However, their fast and large-scale growth via a general approach is still a big challenge, severely limiting their practical implementations. Here, we report a universal method for rapid (~60 min) and large-scale (gram scale) growth of phase-pure, high-crystalline layered vdW materials from their elementary powders via microwave plasma heating in sealed ampoules. This method can be used for growth of 30 compounds with different components (binary, ternary, and quaternary) and properties. The ferroelectric and transport properties of mechanically exfoliated flakes validate the high crystal quality of the grown materials. Our study provides a general strategy for the fast and large-scale growth of layered vdW materials with appealing physiochemical properties, which could be used for various promising applications.

Original language	English
Article number	e1011
Journal	SmartMat
Volume	1
Issue number	1
Online published	25 Nov 2020
DOIs	https://doi.org/10.1002/smm2.1011
Publication status	Published - Dec 2020

Research Keywords

2D materials
ferroelectric
fieldeffect transistor
layered compounds
universal method

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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title = "A universal method for rapid and large‐scale growth of layered crystals",

abstract = "Layered van der Waals (vdW) materials, consisting of atomically thin layers, are of paramount importance in physics, chemistry, and materials science owing to their unique properties and various promising applications. However, their fast and large-scale growth via a general approach is still a big challenge, severely limiting their practical implementations. Here, we report a universal method for rapid (\textasciitilde{}60 min) and large-scale (gram scale) growth of phase-pure, high-crystalline layered vdW materials from their elementary powders via microwave plasma heating in sealed ampoules. This method can be used for growth of 30 compounds with different components (binary, ternary, and quaternary) and properties. The ferroelectric and transport properties of mechanically exfoliated flakes validate the high crystal quality of the grown materials. Our study provides a general strategy for the fast and large-scale growth of layered vdW materials with appealing physiochemical properties, which could be used for various promising applications.",

keywords = "2D materials, ferroelectric, fieldeffect transistor, layered compounds, universal method",

author = "Apoorva Chaturvedi and Bo Chen and Keke Zhang and Qiyuan He and Gwang‐Hyeon Nam and Lu You and Zhuangchai Lai and Chaoliang Tan and Tran, \{Thu Ha\} and Guigao Liu and Jiadong Zhou and Zheng Liu and Junling Wang and Teo, \{Edwin H. T.\} and Hua Zhang",

year = "2020",

month = dec,

doi = "10.1002/smm2.1011",

language = "English",

volume = "1",

journal = "SmartMat",

issn = "2766-8525",

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TY - JOUR

T1 - A universal method for rapid and large‐scale growth of layered crystals

AU - Chaturvedi, Apoorva

AU - Chen, Bo

AU - Zhang, Keke

AU - He, Qiyuan

AU - Nam, Gwang‐Hyeon

AU - You, Lu

AU - Lai, Zhuangchai

AU - Tan, Chaoliang

AU - Tran, Thu Ha

AU - Liu, Guigao

AU - Zhou, Jiadong

AU - Liu, Zheng

AU - Wang, Junling

AU - Teo, Edwin H. T.

AU - Zhang, Hua

PY - 2020/12

Y1 - 2020/12

N2 - Layered van der Waals (vdW) materials, consisting of atomically thin layers, are of paramount importance in physics, chemistry, and materials science owing to their unique properties and various promising applications. However, their fast and large-scale growth via a general approach is still a big challenge, severely limiting their practical implementations. Here, we report a universal method for rapid (~60 min) and large-scale (gram scale) growth of phase-pure, high-crystalline layered vdW materials from their elementary powders via microwave plasma heating in sealed ampoules. This method can be used for growth of 30 compounds with different components (binary, ternary, and quaternary) and properties. The ferroelectric and transport properties of mechanically exfoliated flakes validate the high crystal quality of the grown materials. Our study provides a general strategy for the fast and large-scale growth of layered vdW materials with appealing physiochemical properties, which could be used for various promising applications.

AB - Layered van der Waals (vdW) materials, consisting of atomically thin layers, are of paramount importance in physics, chemistry, and materials science owing to their unique properties and various promising applications. However, their fast and large-scale growth via a general approach is still a big challenge, severely limiting their practical implementations. Here, we report a universal method for rapid (~60 min) and large-scale (gram scale) growth of phase-pure, high-crystalline layered vdW materials from their elementary powders via microwave plasma heating in sealed ampoules. This method can be used for growth of 30 compounds with different components (binary, ternary, and quaternary) and properties. The ferroelectric and transport properties of mechanically exfoliated flakes validate the high crystal quality of the grown materials. Our study provides a general strategy for the fast and large-scale growth of layered vdW materials with appealing physiochemical properties, which could be used for various promising applications.

KW - 2D materials

KW - ferroelectric

KW - fieldeffect transistor

KW - layered compounds

KW - universal method

U2 - 10.1002/smm2.1011

DO - 10.1002/smm2.1011

M3 - RGC 21 - Publication in refereed journal

SN - 2766-8525

VL - 1

JO - SmartMat

JF - SmartMat

IS - 1

M1 - e1011

ER -

A universal method for rapid and large‐scale growth of layered crystals

Abstract

Research Keywords

Publisher's Copyright Statement

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