Proximity-Induced Exchange Interaction and Prolonged Valley Lifetime in MoSe2/CrSBr Van-Der-Waals Heterostructure with Orthogonal Spin Textures

IF 15.8 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Andreas Beer, Klaus Zollner, Caique Serati de Brito, Paulo E. Faria Junior, Philipp Parzefall, Talieh S. Ghiasi, Josep Ingla-Aynés, Samuel Mañas-Valero, Carla Boix-Constant, Kenji Watanabe, Takashi Taniguchi, Jaroslav Fabian, Herre S. J. van der Zant, Yara Galvão Gobato and Christian Schüller*, 
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Abstract

Heterostructures, composed of semiconducting transition-metal dichalcogenides (TMDC) and magnetic van-der-Waals materials, offer exciting prospects for the manipulation of the TMDC valley properties via proximity interaction with the magnetic material. We show that the atomic proximity of monolayer MoSe2 and the antiferromagnetic van-der-Waals crystal CrSBr leads to an unexpected breaking of time-reversal symmetry, with originally perpendicular spin directions in both materials. The observed effect can be traced back to a proximity-induced exchange interaction via first-principles calculations. The resulting spin splitting in MoSe2 is determined experimentally and theoretically to be on the order of a few meV. Moreover, we find a more than 2 orders of magnitude longer valley lifetime of spin-polarized charge carriers in the heterostructure, as compared to monolayer MoSe2/SiO2, driven by a Mott transition in the type-III band-aligned heterostructure.

具有正交自旋纹理的 MoSe2/CrSBr Van-Der-Waals 异质结构中近距离诱导的交换相互作用和延长的山谷寿命
由半导体过渡金属二碲化镉(TMDC)和磁性范-德-瓦尔斯材料组成的异质结构,为通过与磁性材料的接近相互作用来操纵 TMDC 谷特性提供了令人兴奋的前景。我们的研究表明,单层 MoSe2 和反铁磁性范-德-瓦尔斯晶体 CrSBr 的原子邻近性导致了意想不到的时间反转对称性破缺,两种材料的自旋方向原本是垂直的。通过第一原理计算,可以将观察到的效应追溯到近距离诱导的交换相互作用。通过实验和理论测定,MoSe2 中由此产生的自旋分裂在几 meV 量级。此外,我们还发现,与单层 MoSe2/SiO2 相比,异质结构中自旋极化电荷载流子的谷底寿命延长了 2 个数量级,这是由 III 型带对齐异质结构中的莫特转换驱动的。
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来源期刊
ACS Nano
ACS Nano 工程技术-材料科学:综合
CiteScore
26.00
自引率
4.10%
发文量
1627
审稿时长
1.7 months
期刊介绍: ACS Nano, published monthly, serves as an international forum for comprehensive articles on nanoscience and nanotechnology research at the intersections of chemistry, biology, materials science, physics, and engineering. The journal fosters communication among scientists in these communities, facilitating collaboration, new research opportunities, and advancements through discoveries. ACS Nano covers synthesis, assembly, characterization, theory, and simulation of nanostructures, nanobiotechnology, nanofabrication, methods and tools for nanoscience and nanotechnology, and self- and directed-assembly. Alongside original research articles, it offers thorough reviews, perspectives on cutting-edge research, and discussions envisioning the future of nanoscience and nanotechnology.
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