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Robust Weak Antilocalization Effect Up to ∼120 K in the van der Waals Crystal Fe<sub>5–<i>x</i></sub>GeTe<sub>2</sub> with Near-Room-Temperature Ferromagnetism

Zhengxian Li, De-Ping Guo, Kui Huang, Guodong Ma, Xiaolei Liu, Yueshen Wu, Jian Yuan, Zicheng Tao, Binbin Wang, Xia Wang, Zhiqiang Zou, Na Yu, Geliang Yu, Jiamin Xue, Zhongkai Liu, Wei Ji, Jun Li, Yanfeng Guo

2023The Journal of Physical Chemistry Letters10 citationsDOI

Abstract

The van der Waals Fe 5– x GeTe 2 is a 3d ferromagnetic metal with a high Curie temperature of 275 K. We report herein the observation of an exceptional weak antilocalization (WAL) effect that can persist up to 120 K in an Fe 5– x GeTe 2 nanoflake, indicating the dual nature with both itinerant and localized magnetism of 3d electrons. The WAL behavior is characterized by the magnetoconductance peak around zero magnetic field and is supported by the calculated localized nondispersive flat band around the Fermi level. The peak to dip crossover starting around 60 K in magnetoconductance is visible, which could be ascribed to temperature-induced changes in Fe magnetic moments and the coupled electronic band structure as revealed by angle-resolved photoemission spectroscopy and first-principles calculations. Our findings would be instructive for understanding the magnetic exchanges in transition metal magnets as well as for the design of next-generation room-temperature spintronic devices.

Topics & Concepts

Condensed matter physicsFerromagnetismvan der Waals forceSpintronicsCurie temperatureMagnetismPhotoemission spectroscopyFermi levelElectronMaterials scienceMagnetic momentMagnetoresistanceMagnetic fieldChemistryX-ray photoelectron spectroscopyPhysicsNuclear magnetic resonanceQuantum mechanicsOrganic chemistryMolecule2D Materials and ApplicationsTopological Materials and PhenomenaGraphene research and applications