Two-Dimensional Magnetic Anionic Electrons in Electrides: Generation and Manipulation

Xuelei Sui; Jianfeng Wang; Chiyung Yam; Bing Huang

doi:10.1021/acs.nanolett.1c00172

Two-Dimensional Magnetic Anionic Electrons in Electrides: Generation and Manipulation

Xuelei Sui
, Jianfeng Wang^*
, Chiyung Yam
, Bing Huang^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

23 引用（Scopus）

摘要

Introducing magnetism to anionic electrons (AE) of electrides, especially for those confined in two-dimensional (2D) interlayer spaces, could provide a promising way to generate 2D spin-polarized free electron gas. However, the realization of this is challenging. Here, we propose a strategy for generating 2D magnetic AE, which requires two fundamental criteria, i.e., coexistence of localized AE (LAE) and delocalized AE (DAE) and a nearly half-filled LAE. Applying this to Y2C, the magnetism of 2D AE is tunable or sensitive to external strain, hole doping, and layer thickness, depending on the competition between atomic-orbital electrons, DAE, and LAE. Remarkably, a reversible on/off switching of magnetism can be achieved in bilayer Y2C by an electric field. Furthermore, the 2D magnetic AE in Y2C thin films are more robust against oxidation due to spatially selective hole doping effects. The manipulation of spin-polarized 2D AE gas paves a new way for designing spintronic devices with van der Waals magnets.

源语言	英语
页（从-至）	3813-3819
页数	7
期刊	Nano Letters
卷	21
期	9
DOI	https://doi.org/10.1021/acs.nanolett.1c00172
出版状态	已出版 - 12 5月 2021
已对外发布	是

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title = "Two-Dimensional Magnetic Anionic Electrons in Electrides: Generation and Manipulation",

abstract = "Introducing magnetism to anionic electrons (AE) of electrides, especially for those confined in two-dimensional (2D) interlayer spaces, could provide a promising way to generate 2D spin-polarized free electron gas. However, the realization of this is challenging. Here, we propose a strategy for generating 2D magnetic AE, which requires two fundamental criteria, i.e., coexistence of localized AE (LAE) and delocalized AE (DAE) and a nearly half-filled LAE. Applying this to Y2C, the magnetism of 2D AE is tunable or sensitive to external strain, hole doping, and layer thickness, depending on the competition between atomic-orbital electrons, DAE, and LAE. Remarkably, a reversible on/off switching of magnetism can be achieved in bilayer Y2C by an electric field. Furthermore, the 2D magnetic AE in Y2C thin films are more robust against oxidation due to spatially selective hole doping effects. The manipulation of spin-polarized 2D AE gas paves a new way for designing spintronic devices with van der Waals magnets.",

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author = "Xuelei Sui and Jianfeng Wang and Chiyung Yam and Bing Huang",

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T2 - Generation and Manipulation

AU - Sui, Xuelei

AU - Wang, Jianfeng

AU - Yam, Chiyung

AU - Huang, Bing

PY - 2021/5/12

Y1 - 2021/5/12

N2 - Introducing magnetism to anionic electrons (AE) of electrides, especially for those confined in two-dimensional (2D) interlayer spaces, could provide a promising way to generate 2D spin-polarized free electron gas. However, the realization of this is challenging. Here, we propose a strategy for generating 2D magnetic AE, which requires two fundamental criteria, i.e., coexistence of localized AE (LAE) and delocalized AE (DAE) and a nearly half-filled LAE. Applying this to Y2C, the magnetism of 2D AE is tunable or sensitive to external strain, hole doping, and layer thickness, depending on the competition between atomic-orbital electrons, DAE, and LAE. Remarkably, a reversible on/off switching of magnetism can be achieved in bilayer Y2C by an electric field. Furthermore, the 2D magnetic AE in Y2C thin films are more robust against oxidation due to spatially selective hole doping effects. The manipulation of spin-polarized 2D AE gas paves a new way for designing spintronic devices with van der Waals magnets.

AB - Introducing magnetism to anionic electrons (AE) of electrides, especially for those confined in two-dimensional (2D) interlayer spaces, could provide a promising way to generate 2D spin-polarized free electron gas. However, the realization of this is challenging. Here, we propose a strategy for generating 2D magnetic AE, which requires two fundamental criteria, i.e., coexistence of localized AE (LAE) and delocalized AE (DAE) and a nearly half-filled LAE. Applying this to Y2C, the magnetism of 2D AE is tunable or sensitive to external strain, hole doping, and layer thickness, depending on the competition between atomic-orbital electrons, DAE, and LAE. Remarkably, a reversible on/off switching of magnetism can be achieved in bilayer Y2C by an electric field. Furthermore, the 2D magnetic AE in Y2C thin films are more robust against oxidation due to spatially selective hole doping effects. The manipulation of spin-polarized 2D AE gas paves a new way for designing spintronic devices with van der Waals magnets.

KW - 2D free electron gas

KW - Electrides

KW - low-dimensional magnetism

KW - oxidation

KW - spin field-effect transistor

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U2 - 10.1021/acs.nanolett.1c00172

DO - 10.1021/acs.nanolett.1c00172

M3 - 文章

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AN - SCOPUS:85106491363

SN - 1530-6984

VL - 21

SP - 3813

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JO - Nano Letters

JF - Nano Letters

IS - 9

ER -

Two-Dimensional Magnetic Anionic Electrons in Electrides: Generation and Manipulation

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