二维反铁电乌兹晶中可切换的隐藏自旋极化和负泊松比

IF 4.8 4区 物理与天体物理 Q2 PHYSICS, CONDENSED MATTER Journal of Semiconductors Pub Date : 2023-12-01 DOI:10.1088/1674-4926/44/12/122101
Zhuang Ma, Jingwen Jiang, Gui Wang, Peng Zhang, Yiling Sun, Zhengfang Qian, Jiaxin Zheng, Wen Xiong, Fei Wang, Xiuwen Zhang, Pu Huang
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引用次数: 0

摘要

近十年来,二维(2D)反铁电材料引起了人们极大的研究兴趣。在这里,我们揭示了一种二维反铁电(AFE)晶体,其 AFE 极化方向可在二维平面上进行一定程度的切换。这种二维功能材料是通过堆叠具有 "自修复 "性质的剥离沃特兹(wz)单层实现的,它承载着强耦合的铁弹性/反铁电性和良性稳定性。AFE 候选材料,即 ZnX 和 CdX(X = S、Se、Te),都是Γ点直接带隙的半导体,具有可切换的反铁电性和铁电性,过渡势垒低,隐含自旋极化,以及巨大的面内负泊松比(NPR),从而能够通过 AFE 切换实现隐含自旋特性和辅助量级的共调。二维 AFE wz 晶体为探究二维反铁电性、铁弹性、NPR 和自旋效应的相互作用提供了一个平台,为 wz 半导体中丰富的物理和器件设计提供了新的启示。
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Switchable hidden spin polarization and negative Poisson's ratio in two-dimensional antiferroelectric wurtzite crystals
Two-dimensional (2D) antiferroelectric materials have raised great research interest over the last decade. Here, we reveal a type of 2D antiferroelectric (AFE) crystal where the AFE polarization direction can be switched by a certain degree in the 2D plane. Such 2D functional materials are realized by stacking the exfoliated wurtzite (wz) monolayers with “self-healable” nature, which host strongly coupled ferroelasticity/antiferroelectricity and benign stability. The AFE candidates, i.e., ZnX and CdX (X = S, Se, Te), are all semiconductors with direct bandgap at Γ point, which harbors switchable antiferroelectricity and ferroelasticity with low transition barriers, hidden spin polarization, as well as giant in-plane negative Poisson's ratio (NPR), enabling the co-tunability of hidden spin characteristics and auxetic magnitudes via AFE switching. The 2D AFE wz crystals provide a platform to probe the interplay of 2D antiferroelectricity, ferroelasticity, NPR, and spin effects, shedding new light on the rich physics and device design in wz semiconductors.
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来源期刊
Journal of Semiconductors
Journal of Semiconductors PHYSICS, CONDENSED MATTER-
CiteScore
6.70
自引率
9.80%
发文量
119
期刊介绍: Journal of Semiconductors publishes articles that emphasize semiconductor physics, materials, devices, circuits, and related technology.
期刊最新文献
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