Mechanically Tunable Spontaneous Vertical Charge Redistribution in Few-Layer WTe2

Zeyuan Ni; Emi Minamitani; Kazuaki Kawahara; Ryuichi Arafune; Chun-Liang Lin; Noriaki Takagi; Satoshi Watanabe

doi:10.1021/acs.jpcc.9b10423

Mechanically Tunable Spontaneous Vertical Charge Redistribution in Few-Layer WTe₂

Zeyuan Ni^*, Emi Minamitani, Kazuaki Kawahara, Ryuichi Arafune, Chun-Liang Lin, Noriaki Takagi, Satoshi Watanabe

^*此作品的通信作者

研究成果: Article › 同行評審

8 引文斯高帕斯（Scopus）

摘要

Broken symmetry is often the essence of exotic properties in condensed matters. WTe₂ exceptionally takes a non-centrosymmetric crystal structure in the family of transition-metal dichalcogenides and exhibits novel properties, such as the nonsaturating magnetoresistance and ferroelectric-like behavior. Herein, using the first-principles calculation, we show that unique layer stacking in WTe₂ generates surface dipoles in few-layer WTe₂. The surface dipoles are tunable and switchable using the interlayer shear displacement. This could explain the ferroelectric-like behavior recently observed in atomically thin WTe₂ films. In addition, we reveal that exfoliation of the surface layer flips the out-of-plane spin textures. The presented results will aid in the deeper understanding, manipulation, and further exploration of the physical properties of WTe₂ and related atom-layered materials for applications in electronics and spintronic devices.

原文	English
頁（從 - 到）	2008-2012
頁數	5
期刊	Journal of Physical Chemistry C
卷	124
發行號	3
DOIs	https://doi.org/10.1021/acs.jpcc.9b10423
出版狀態	Published - 23 1月 2020

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10.1021/acs.jpcc.9b10423

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引用此

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abstract = "Broken symmetry is often the essence of exotic properties in condensed matters. WTe2 exceptionally takes a non-centrosymmetric crystal structure in the family of transition-metal dichalcogenides and exhibits novel properties, such as the nonsaturating magnetoresistance and ferroelectric-like behavior. Herein, using the first-principles calculation, we show that unique layer stacking in WTe2 generates surface dipoles in few-layer WTe2. The surface dipoles are tunable and switchable using the interlayer shear displacement. This could explain the ferroelectric-like behavior recently observed in atomically thin WTe2 films. In addition, we reveal that exfoliation of the surface layer flips the out-of-plane spin textures. The presented results will aid in the deeper understanding, manipulation, and further exploration of the physical properties of WTe2 and related atom-layered materials for applications in electronics and spintronic devices.",

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AU - Ni, Zeyuan

AU - Minamitani, Emi

AU - Kawahara, Kazuaki

AU - Arafune, Ryuichi

AU - Lin, Chun-Liang

AU - Takagi, Noriaki

AU - Watanabe, Satoshi

PY - 2020/1/23

Y1 - 2020/1/23

N2 - Broken symmetry is often the essence of exotic properties in condensed matters. WTe2 exceptionally takes a non-centrosymmetric crystal structure in the family of transition-metal dichalcogenides and exhibits novel properties, such as the nonsaturating magnetoresistance and ferroelectric-like behavior. Herein, using the first-principles calculation, we show that unique layer stacking in WTe2 generates surface dipoles in few-layer WTe2. The surface dipoles are tunable and switchable using the interlayer shear displacement. This could explain the ferroelectric-like behavior recently observed in atomically thin WTe2 films. In addition, we reveal that exfoliation of the surface layer flips the out-of-plane spin textures. The presented results will aid in the deeper understanding, manipulation, and further exploration of the physical properties of WTe2 and related atom-layered materials for applications in electronics and spintronic devices.

AB - Broken symmetry is often the essence of exotic properties in condensed matters. WTe2 exceptionally takes a non-centrosymmetric crystal structure in the family of transition-metal dichalcogenides and exhibits novel properties, such as the nonsaturating magnetoresistance and ferroelectric-like behavior. Herein, using the first-principles calculation, we show that unique layer stacking in WTe2 generates surface dipoles in few-layer WTe2. The surface dipoles are tunable and switchable using the interlayer shear displacement. This could explain the ferroelectric-like behavior recently observed in atomically thin WTe2 films. In addition, we reveal that exfoliation of the surface layer flips the out-of-plane spin textures. The presented results will aid in the deeper understanding, manipulation, and further exploration of the physical properties of WTe2 and related atom-layered materials for applications in electronics and spintronic devices.

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JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 3

ER -

Mechanically Tunable Spontaneous Vertical Charge Redistribution in Few-Layer WTe2

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Mechanically Tunable Spontaneous Vertical Charge Redistribution in Few-Layer WTe₂