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Electric Control of Exchange Bias Effect in FePS3-Fe5GeTe2van der Waals Heterostructures

journal contribution
posted on 2024-11-17, 12:57 authored by Sultan Albarakati, Wen Qiang Xie, Cheng Tan, Guolin Zheng, Meri Algarni, Junbo Li, James Partridge, Michelle JS Spencer, Lawrence Farrar, Yimin Xiong, Mingliang Tian, Xiaolin Wang, Yu Jun Zhao, Lan Wang
Manipulating the exchange bias (EB) effect using an electronic gate is a significant goal in spintronics. The emergence of van der Waals (vdW) magnetic heterostructures has provided improved means to study interlayer magnetic coupling, but to date, these heterostructures have not exhibited electrical gate-controlled EB effects. Here, we report electrically controllable EB effects in a vdW heterostructure, FePS3-Fe5GeTe2. By applying a solid protonic gate, the EB effects were repeatably electrically tuned. The EB field reaches up to 23% of the coercivity and the blocking temperature ranges from 30 to 60 K under various gate-voltages. The proton intercalations not only tune the average magnetic exchange coupling but also change the antiferromagnetic configurations in the FePS3 layer. These result in a dramatic modulation of the total interface exchange coupling and the resultant EB effects. The study is a significant step toward vdW heterostructure-based magnetic logic for future low-energy electronics.

Funding

Ontario Ministry of Natural Resources and Forestry (12074126)

History

Journal title

Nano Letters

Volume

22

Issue

15

Pagination

6166-6172

Language

English

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