Atomic Imaging of Electrically Switchable Striped Domains in β′-In2Se3

Zhi Chen; Wei Fu; Lin Wang; Wei Yu; Haohan Li; Clement Kok Yong Tan; Ibrahim Abdelwahab; Yan Shao; Chenliang Su; Mingzi Sun; Bolong Huang; Kian Ping Loh

doi:10.1002/advs.202100713

Atomic Imaging of Electrically Switchable Striped Domains in β′-In₂Se₃

Zhi Chen, Wei Fu, Lin Wang, Wei Yu, Haohan Li, Clement Kok Yong Tan, Ibrahim Abdelwahab, Yan Shao, Chenliang Su, Mingzi Sun, Bolong Huang^*, Kian Ping Loh^*

^*Corresponding author for this work

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

33 Citations (Scopus)

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Abstract

2D ferroelectricity in van-der-Waals-stacked materials such as indium selenide (In₂Se₃) has attracted interests because the ferroelectricity is robust even in ultrathin layers, which is useful for the miniaturization of ferroelectric field effect transistors. To implement In₂Se₃ in nanoscale ferroelectric devices, an understanding of the domain structure and switching dynamics in the 2D limit is essential. In this study, a biased scanning tunnelling microscopy (STM) tip is used to locally switch polarized domains in β′-In₂Se₃, and the reconfiguration of these domains are directly visualized using STM. The room-temperature surface of β′-In₂Se₃ breaks into 1D nanostriped domains, which changes into a zig-zag striped domains of β″ phase at low temperatures. These two types of domains can coexist, and by applying a tip-sample bias, they can be interchangeably switched locally, showing volatile or nonvolatile like behavior depending on the threshold voltage applied. An atomic model is proposed to explain the switching mechanism based on tip-induced flexoelectric effect and the ferroelastic switching between β′ and β″ phases. © 2021 The Authors. Advanced Science published by Wiley-VCH GmbH

Original language	English
Article number	2100713
Journal	Advanced Science
Volume	8
Issue number	17
Online published	2 Jul 2021
DOIs	https://doi.org/10.1002/advs.202100713
Publication status	Published - 8 Sept 2021
Externally published	Yes

Research Keywords

antiferroelectrics
ferroelectrics
indium selenide
phase changes
scanning tunneling microscopy

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@article{957914cd0d3f42ffa3adbb2d17937b27,

title = "Atomic Imaging of Electrically Switchable Striped Domains in β′-In2Se3",

abstract = "2D ferroelectricity in van-der-Waals-stacked materials such as indium selenide (In2Se3) has attracted interests because the ferroelectricity is robust even in ultrathin layers, which is useful for the miniaturization of ferroelectric field effect transistors. To implement In2Se3 in nanoscale ferroelectric devices, an understanding of the domain structure and switching dynamics in the 2D limit is essential. In this study, a biased scanning tunnelling microscopy (STM) tip is used to locally switch polarized domains in β′-In2Se3, and the reconfiguration of these domains are directly visualized using STM. The room-temperature surface of β′-In2Se3 breaks into 1D nanostriped domains, which changes into a zig-zag striped domains of β″ phase at low temperatures. These two types of domains can coexist, and by applying a tip-sample bias, they can be interchangeably switched locally, showing volatile or nonvolatile like behavior depending on the threshold voltage applied. An atomic model is proposed to explain the switching mechanism based on tip-induced flexoelectric effect and the ferroelastic switching between β′ and β″ phases. {\textcopyright} 2021 The Authors. Advanced Science published by Wiley-VCH GmbH",

keywords = "antiferroelectrics, ferroelectrics, indium selenide, phase changes, scanning tunneling microscopy",

author = "Zhi Chen and Wei Fu and Lin Wang and Wei Yu and Haohan Li and Tan, {Clement Kok Yong} and Ibrahim Abdelwahab and Yan Shao and Chenliang Su and Mingzi Sun and Bolong Huang and Loh, {Kian Ping}",

year = "2021",

month = sep,

day = "8",

doi = "10.1002/advs.202100713",

language = "English",

volume = "8",

journal = "Advanced Science",

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publisher = "Wiley-VCH Verlag GmbH",

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TY - JOUR

T1 - Atomic Imaging of Electrically Switchable Striped Domains in β′-In2Se3

AU - Chen, Zhi

AU - Fu, Wei

AU - Wang, Lin

AU - Yu, Wei

AU - Li, Haohan

AU - Tan, Clement Kok Yong

AU - Abdelwahab, Ibrahim

AU - Shao, Yan

AU - Su, Chenliang

AU - Sun, Mingzi

AU - Huang, Bolong

AU - Loh, Kian Ping

PY - 2021/9/8

Y1 - 2021/9/8

N2 - 2D ferroelectricity in van-der-Waals-stacked materials such as indium selenide (In2Se3) has attracted interests because the ferroelectricity is robust even in ultrathin layers, which is useful for the miniaturization of ferroelectric field effect transistors. To implement In2Se3 in nanoscale ferroelectric devices, an understanding of the domain structure and switching dynamics in the 2D limit is essential. In this study, a biased scanning tunnelling microscopy (STM) tip is used to locally switch polarized domains in β′-In2Se3, and the reconfiguration of these domains are directly visualized using STM. The room-temperature surface of β′-In2Se3 breaks into 1D nanostriped domains, which changes into a zig-zag striped domains of β″ phase at low temperatures. These two types of domains can coexist, and by applying a tip-sample bias, they can be interchangeably switched locally, showing volatile or nonvolatile like behavior depending on the threshold voltage applied. An atomic model is proposed to explain the switching mechanism based on tip-induced flexoelectric effect and the ferroelastic switching between β′ and β″ phases. © 2021 The Authors. Advanced Science published by Wiley-VCH GmbH

AB - 2D ferroelectricity in van-der-Waals-stacked materials such as indium selenide (In2Se3) has attracted interests because the ferroelectricity is robust even in ultrathin layers, which is useful for the miniaturization of ferroelectric field effect transistors. To implement In2Se3 in nanoscale ferroelectric devices, an understanding of the domain structure and switching dynamics in the 2D limit is essential. In this study, a biased scanning tunnelling microscopy (STM) tip is used to locally switch polarized domains in β′-In2Se3, and the reconfiguration of these domains are directly visualized using STM. The room-temperature surface of β′-In2Se3 breaks into 1D nanostriped domains, which changes into a zig-zag striped domains of β″ phase at low temperatures. These two types of domains can coexist, and by applying a tip-sample bias, they can be interchangeably switched locally, showing volatile or nonvolatile like behavior depending on the threshold voltage applied. An atomic model is proposed to explain the switching mechanism based on tip-induced flexoelectric effect and the ferroelastic switching between β′ and β″ phases. © 2021 The Authors. Advanced Science published by Wiley-VCH GmbH

KW - antiferroelectrics

KW - ferroelectrics

KW - indium selenide

KW - phase changes

KW - scanning tunneling microscopy

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