Proximity‐Coupling‐Induced Significant Enhancement of Coercive Field and Curie Temperature in 2D van der Waals Heterostructures

Zhang, Luman; Huang, Xinyu; Dai, Hongwei; Wang, Mingshan; Cheng, Hui; Tong, Lei; Li, Zheng; Han, Xu; Wang, Xia; Ye, Lei; Han, Junbo

doi:10.1002/adma.202002032

Cited by 112 publications

(143 citation statements)

References 40 publications

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“…successfully observed the improved ferromagnetic property of 2D FePS 3 /Fe 3 GeTe 2 heterostructure through MOKE measurement (Figure 6c). [ 111 ] Benefitting from the proximity coupling effect, the heterostructure shows higher Curie temperature and much stronger coercive field than Fe 3 GeTe 2 flakes alone. [ 111 ] Recent work has demonstrated that the antiferromagnetic phase transition in 2D FePS 3 flakes can be probed by nanomechanical resonators and revealed that specific heat plays a mediated role between mechanical motion and antiferromagnetic order (Figure 6d,e).…”

Section: Novel Properties Of 2d Lpcsmentioning

confidence: 99%

“…[ 111 ] Benefitting from the proximity coupling effect, the heterostructure shows higher Curie temperature and much stronger coercive field than Fe 3 GeTe 2 flakes alone. [ 111 ] Recent work has demonstrated that the antiferromagnetic phase transition in 2D FePS 3 flakes can be probed by nanomechanical resonators and revealed that specific heat plays a mediated role between mechanical motion and antiferromagnetic order (Figure 6d,e). [ 22 ] Moreover, the strong dependence between the Neel temperature and electrostatically induced strain in 2D FePS 3 flakes has also been confirmed.…”

Section: Novel Properties Of 2d Lpcsmentioning

confidence: 99%

Section: Novel Properties Of 2d Lpcsmentioning

confidence: 99%

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Recent Advances in 2D Layered Phosphorous Compounds

et al. 2021

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2D layered phosphorous compounds (2D LPCs) have led to explosion of research interest in recent years. With the diversity of valence states of phosphorus, 2D LPCs exist in various material types and possess many novel physical and chemical properties. These properties, including widely adjustable range of bandgap, diverse electronic properties covering metal, semimetal, semiconductor and insulator, together with inherent magnetism and ferroelectricity at atomic level, render 2D LPCs greatly promising in the applications of electronics, spintronics, broad‐spectrum optoelectronics, high‐performance catalysts, and energy storage, etc. In this review, the recently research progress of 2D LPCs are presented in detail. First, the 2D LPCs are classified according to their elemental composition and the corresponding crystal structures are introduced, followed by their preparation methods. Then, the novel properties are summarized and the potential applications are discussed in detail. Finally, the conclusion and perspective of the promising 2D LPCs are discussed on the foundation of the latest research progress.

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Section: Novel Properties Of 2d Lpcsmentioning

confidence: 99%

Section: Novel Properties Of 2d Lpcsmentioning

confidence: 99%

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Recent Advances in 2D Layered Phosphorous Compounds

et al. 2021

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“…Assembling the vdW heterostructure with other materials may also be helpful in enhancing the T C of vdW magnets. [163,171,172] In addition, doping, such as, Ga implantion and Co doping were recently demonstrated to be effective to increase the T C . [173][174][175] Finally, wafer-scale scalability of vdW materials is still an important issue.…”

Section: Discussionmentioning

confidence: 99%

Spin‐Orbit Torque in Van der Waals‐Layered Materials and Heterostructures

Tang

Liu

et al. 2021

Advanced Science

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Spin-orbit torque (SOT) opens an efficient and versatile avenue for the electrical manipulation of magnetization in spintronic devices. The enhancement of SOT efficiency and reduction of power consumption are key points for the implementation of high-performance SOT devices, which strongly rely on the spin-orbit coupling (SOC) strength and magnetic properties of ferromagnetic/non-magnetic heterostructures. Recently, van der Waals-layered materials have shown appealing properties for use in efficient SOT applications. On the one hand, transition-metal dichalcogenides, topological insulators, and graphene-based heterostructures possess appreciable SOC strength. This feature can efficiently converse the charge current into spin current and result in large SOT. On the other hand, the newly discovered layered magnetic materials provide ultra-thin and gate-tunable ferromagnetic candidates for high-performance SOT devices. In this review, the latest advancements of SOT research in various layered materials are summarized. First, a brief introduction of SOT is given. Second, SOT studies of various layered materials and heterostructures are summarized. Subsequently, progresses on SOT-induced magnetization switching are presented. Finally, current challenges and prospects for future development are suggested.

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“…2D MPTs exhibit larger bandgaps than current 2D transition metal chalcogenides (TMDs), which satisfies the application demands in the broad wavelength response [9]. Accordingly, 2D MPTs are supposed to provide appealing prospects in photodetection, catalysis, and spintronic devices, and expected to be a powerful candidate of next-generation electronics [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of 2D ternary layered manganese phosphorous trichalcogenides towards ultraviolet photodetection

Liu

Feng

et al. 2021

Sci. China Mater.

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Manganese phosphorous selenium (MnPSe 3 ), as a representative of layered metal phosphorus trichalcogenides (MPTs), has gained significant attention due to its direct bandgap, high carrier mobility, large absorption coefficient, which indicate great potential in photoelectric application. Herein, high-quality two-dimensional (2D) MnPSe 3 flakes were mechanically exfoliated from the corresponding bulk crystals synthesized by chemical vapor transport (CVT) methods. The systematic investigation was applied to the lattice vibrations of MnPSe 3 via angle-resolved polarized Raman spectroscopy (ARPRS), and the Raman vibration modes were determined based on Raman selection rules and crystal symmetry. Impressively, the photodetectors based on 2D MnPSe 3 flakes exhibit excellent photoresponse to the ultraviolet light with a responsivity up to 22.7 A W −1 and a detectivity of 2.4 ×10 11 Jones. The high performance in the ultraviolet range signifies that 2D MnPSe 3 is expected to be a powerful candidate for future ultraviolet photodetection.

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Proximity‐Coupling‐Induced Significant Enhancement of Coercive Field and Curie Temperature in 2D van der Waals Heterostructures

Cited by 112 publications

References 40 publications

Recent Advances in 2D Layered Phosphorous Compounds

Recent Advances in 2D Layered Phosphorous Compounds

Spin‐Orbit Torque in Van der Waals‐Layered Materials and Heterostructures

Synthesis of 2D ternary layered manganese phosphorous trichalcogenides towards ultraviolet photodetection

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