Multiresistance states in ferro- and antiferroelectric trilayer boron nitride

Lv, Ming; Wang, Jiulong; Tian, Ming; Wan, Neng; Tong, Wenyi; Duan, Chungang; Xue, Jiamin

doi:10.1038/s41467-023-44617-w

Nat Commun

2024

DOI: 10.1038/s41467-023-44617-w

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Multiresistance states in ferro- and antiferroelectric trilayer boron nitride

Ming Lv,

Jiulong Wang,

Ming Tian

et al.

Abstract: Stacking two atomic layers together can induce interlayer (sliding) ferroelectricity that is absent in their naturally occurring crystal forms. With the flexibility of two-dimensional materials, more layers could be assembled to give rise to even richer polarization states. Here, we show that three-layer boron nitride can host ferro- and antiferroelectric domains in the same sample. When used as a tunneling junction, the polarization of these domains could be switched in a layer-by-layer procedure, producing m… Show more

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Cited by 5 publications

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Sliding Ferroelectricity Induced Ultrafast Switchable Photovoltaic Response in ε‐InSe Layers

Wang,

Zeng,

Tian

et al. 2024

Advanced Materials

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Abstract2D sliding ferroelectric semiconductors have greatly expanded the ferroelectrics family with the flexibility of bandgap and material properties, which hold great promise for ultrathin device applications that combine ferroelectrics with optoelectronics. Besides the induced different resistance states for non‐volatile memories, the switchable ferroelectric polarizations can also modulate the photogenerated carriers for potentially ultrafast optoelectronic devices. Here, it is demonstrated that the room temperature sliding ferroelectricity can be used for ultrafast switchable photovoltaic response in ε‐InSe layers. By first‐principles calculations and experimental characterizations, it is revealed that the ferroelectricity with out‐of‐plane (OOP) polarization only exists in even layer ε‐InSe. The ferroelectricity is also demonstrated in ε‐InSe‐based vertical devices, which exhibit high on‐off ratios (≈104) and non‐volatile storage capabilities. Moreover, the OOP ferroelectricity enables an ultrafast (≈3 ps) bulk photovoltaic response in the near‐infrared band, rendering it a promising material for self‐powered reconfigurable and ultrafast photodetector. This work reveals the essential role of ferroelectric polarization on the photogenerated carrier dynamics and paves the way for hybrid multifunctional ferroelectric and optoelectronic devices.

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Sliding Ferroelectricity Induced Ultrafast Switchable Photovoltaic Response in ε‐InSe Layers

Wang,

Zeng,

Tian

et al. 2024

Advanced Materials

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Step‐Directed Epitaxy of Unidirectional Hexagonal Boron Nitride on Vicinal Ge(110)

Jung,

Zhao,

Yang

et al. 2024

Small Structures

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Insulating hexagonal boron nitride (hBN) films with precisely controlled thickness are ideal dielectric components to modulate various interfaces in electronic devices. To achieve this, high‐quality hBN with controlled atomic configurations must be able to form pristine interfaces with various materials in devices. However, previously reported large‐scale hBN films with uniform thickness either are polycrystalline or are not suitable for atomically clean assembly via mechanical exfoliation, limiting their applications in device technology. Herein, the large‐scale growth of monolayer (ML) single crystalline hBN films on Ge(110) substrates by using chemical vapor deposition is reported. Vicinal Ge(110) substrates are used for the step‐directed epitaxial growth of hBN, where Ge atomic steps act as the hBN nucleation sites, guiding the unidirectional alignments of multiple hBN domains. Density functional theory calculations reveal that the optimum hydrogen passivations on both hBN edges and Ge surfaces enable the epitaxial coupling between hBN and the Ge step edges and the single crystallinity of the final hBN films. Using epitaxially grown ML hBN films, a few hBN films with controlled stacking orders and pristine interfaces through a layer‐by‐layer assembly process are fabricated. These films function as high‐quality dielectrics to enhance carrier transport in graphene and MoS2 channels.

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Topological Polar Networks in Twisted Rhombohedral-Stacked Bilayer WSe₂ Moiré Superlattices

Li,

Wan,

Liu

et al. 2024

Nano Lett.

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Sliding ferroelectricity enables materials with intrinsic centrosymmetric symmetry to generate spontaneous polarization via stacking engineering, extending the family of ferroelectric materials and enriching the field of low-dimensional ferroelectric physics. Vertical ferroelectric domains, where the polarization is perpendicular to atomic motion, have been discovered in twisted bilayers of inversion symmetry broken systems such as hexagonal boron nitride, graphene, and transition metal chalcogenides. In this study, we demonstrate that this symmetry breaking also induces lateral polar networks in twisted bilayer rhombohedral-stacked WSe2, as determined through symmetry considerations and vector piezoresponse force microscopy (V-PFM) results. Lateral polarization (LP) in saddle point (SP) regions forms head-to-tail triangular vortices, exhibiting elliptical domain shapes with widths up to 40 nm. The LP encloses the vertical polarization (VP), forming a network of Bloch-type merons and antimerons. Our work enhances the understanding of domain distribution and polarization orientation in moiré ferroelectrics.

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Multiresistance states in ferro- and antiferroelectric trilayer boron nitride

Cited by 5 publications

References 31 publications

Sliding Ferroelectricity Induced Ultrafast Switchable Photovoltaic Response in ε‐InSe Layers

Sliding Ferroelectricity Induced Ultrafast Switchable Photovoltaic Response in ε‐InSe Layers

Step‐Directed Epitaxy of Unidirectional Hexagonal Boron Nitride on Vicinal Ge(110)

Topological Polar Networks in Twisted Rhombohedral-Stacked Bilayer WSe₂ Moiré Superlattices

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Multiresistance states in ferro- and antiferroelectric trilayer boron nitride

Cited by 5 publications

References 31 publications

Sliding Ferroelectricity Induced Ultrafast Switchable Photovoltaic Response in ε‐InSe Layers

Sliding Ferroelectricity Induced Ultrafast Switchable Photovoltaic Response in ε‐InSe Layers

Step‐Directed Epitaxy of Unidirectional Hexagonal Boron Nitride on Vicinal Ge(110)

Topological Polar Networks in Twisted Rhombohedral-Stacked Bilayer WSe2 Moiré Superlattices

Contact Info

Product

Resources

About

Topological Polar Networks in Twisted Rhombohedral-Stacked Bilayer WSe₂ Moiré Superlattices