Exchange Bias Modulated by Antiferromagnetic Spin‐Flop Transition in 2D Van der Waals Heterostructures

Gu, Kai; Zhang, Xiaoqian; Liu, Xiangjie; Guo, Xinlei; Wu, Zhenqi; Wang, Shuo; Song, Qinxin; Wang, Wei; Wei, Lujun; Liu, Ping; Ma, Jingrui; Xu, Yongbing; Niu, Wei; Pu, Yong

doi:10.1002/advs.202307034

Cited by 3 publications

References 38 publications

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Polarity‐Reversal of Exchange Bias in van der Waals FePS₃/Fe₃GaTe₂ Heterostructures

Xiao,

Lyu,

et al. 2024

Advanced Science

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Exchange bias (EB) in antiferromagnetic (AFM)/ferromagnetic heterostructures is crucial for the advancement of spintronic devices and has attracted significant attention. The common EB effect in van der Waals heterostructures features a low blocking temperature (Tb) and a single polarity. In this work, a significant EB effect with a Tb up to 150 K is observed in FePS3/Fe3GaTe2 heterostructures, and in particular, the EB exhibits an unusual temperature‐dependent polarity‐reversal behavior. Under a high positive field‐cooling condition (e.g., μ0H ≥ 0.5 T), a negative EB field (HEB) is observed at low temperatures, and with increasing temperature, the HEB crosses zero at ≈20 K, subsequently becomes positive and later approaches zero again at Tb. A model composed of a top FePS3/interfacial FePS3/Fe3GaTe2 sandwich structure is proposed. The charge transfer from Fe3GaTe2 to FePS3 at the interface induces net magnetic moments (∆M) in FePS3. The interface favors AFM coupling, and thus the reversal of ∆M of the interfacial FePS3 leads to the polarity‐reversal of EB. Moreover, the EB can be extended to the bare Fe3GaTe2 region of the Fe3GaTe2 flake partially covered by FePS3. This work provides opportunities for a deeper understanding of the EB effect and opens a new route toward constructing novel spintronic devices.

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Polarity‐Reversal of Exchange Bias in van der Waals FePS₃/Fe₃GaTe₂ Heterostructures

Xiao,

Lyu,

et al. 2024

Advanced Science

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Unconventional Magnetic and Magneto‐Transport Properties in Quasi‐2D Ni_0.28TaSeS Single Crystal

Huang,

Wang,

Liu

et al. 2024

Small

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Van der Waals (vdW) magnetic materials have broad application prospects in next‐generation spintronics. Inserting magnetic elements into nonmagnetic vdW materials can introduce magnetism and enhance various transport properties. Herein, the unconventional magnetic and magneto‐transport phenomena is reported in Ni0.28TaSeS crystal by intercalating Ni atoms into nonmagnetic 2H‐TaSeS matrix. Magnetic characterization reveals a canted magnetic structure in Ni0.28TaSeS, which results in an antiferromagnetic (AFM) order along the c‐axis and a ferromagnetic (FM) moment in the ab‐plane. The presence of spin‐flop (SF) behavior can also be attributed to the canted magnetic structure. Temperature‐dependent resistivity exhibits a metallic behavior with an abrupt decrease corresponding to the magnetic transition. Magneto‐transport measurements demonstrate a positive magnetoresistance (MR) with a plateau that is different from conventional magnetic materials. The field‐dependent Hall signal exhibits nonlinear field dependence when the material is in magnetically ordered state. These unconventional magneto‐transport behaviors are attributed to the field‐induced formation of a complex spin texture in Ni0.28TaSeS. In addition, it further investigated the angle dependence of MR and observed an unusual fourfold anisotropic magnetoresistance (AMR) effect. This work inspires future research on spintronic devices utilizing magnetic atom‐intercalated quasi‐2D materials.

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Spin Seebeck in the weak exchange coupled van der Waals antiferromagnet

Wu,

He,

Ding

et al. 2024

Preprint

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Spin Seebeck effect (SSE) refers to the creation of spin currents due to a temperature gradient in the magnetic materials or across magnet-normal metal interfaces, which can be electrically detected through the inverse spin Hall effect (ISHE) when in contact with heavy metals. It offers fundamental insights into the magnetic properties of materials, including the magnetic phase transition, static magnetic order, and magnon excitations. However, the SSE in van der Waals antiferromagnet is still elusive, especially across the spin-flip transition. Here, we demonstrate the SSE in the weak exchange coupled van der Waals antiferromagnet CrPS4. The SSE increases as the magnetic field increases before the spin-flip transition due to the enhancement of the thermal spin current as a function of the applied field. A peak of SSE is observed at the spin-flip field, which is related to the magnon mode edges across the spin-flip field. Our results extend SSE research to van der Waals antiferromagnets and demonstrate an enhancement of SSE at the spin-flip transition.

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Exchange Bias Modulated by Antiferromagnetic Spin‐Flop Transition in 2D Van der Waals Heterostructures

Cited by 3 publications

References 38 publications

Polarity‐Reversal of Exchange Bias in van der Waals FePS₃/Fe₃GaTe₂ Heterostructures

Polarity‐Reversal of Exchange Bias in van der Waals FePS₃/Fe₃GaTe₂ Heterostructures

Unconventional Magnetic and Magneto‐Transport Properties in Quasi‐2D Ni_0.28TaSeS Single Crystal

Spin Seebeck in the weak exchange coupled van der Waals antiferromagnet

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Exchange Bias Modulated by Antiferromagnetic Spin‐Flop Transition in 2D Van der Waals Heterostructures

Cited by 3 publications

References 38 publications

Polarity‐Reversal of Exchange Bias in van der Waals FePS3/Fe3GaTe2 Heterostructures

Polarity‐Reversal of Exchange Bias in van der Waals FePS3/Fe3GaTe2 Heterostructures

Unconventional Magnetic and Magneto‐Transport Properties in Quasi‐2D Ni0.28TaSeS Single Crystal

Spin Seebeck in the weak exchange coupled van der Waals antiferromagnet

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Polarity‐Reversal of Exchange Bias in van der Waals FePS₃/Fe₃GaTe₂ Heterostructures

Polarity‐Reversal of Exchange Bias in van der Waals FePS₃/Fe₃GaTe₂ Heterostructures

Unconventional Magnetic and Magneto‐Transport Properties in Quasi‐2D Ni_0.28TaSeS Single Crystal