Pressure-controlled interlayer magnetism in atomically thin CrI3

[1]  Xiaodong Xu,et al.  Giant and nonreciprocal second harmonic generation from layered antiferromagnetism in bilayer CrI 3 , 2020 .

[2]  Michael A. McGuire,et al.  Switching 2D magnetic states via pressure tuning of layer stacking , 2019, Nature Materials.

[3]  F. Klose,et al.  Two‐Dimensional Magnets: Forgotten History and Recent Progress towards Spintronic Applications , 2019, Advanced Functional Materials.

[4]  K. Novoselov,et al.  Magnetic 2D materials and heterostructures , 2019, Nature Nanotechnology.

[5]  Xiaodong Xu,et al.  Giant nonreciprocal second-harmonic generation from antiferromagnetic bilayer CrI3 , 2019, Nature.

[6]  Jie Shan,et al.  Spin tunnel field-effect transistors based on two-dimensional van der Waals heterostructures , 2019, Nature Electronics.

[7]  Efthimios Kaxiras,et al.  Author Correction: Enhancement of interlayer exchange in an ultrathin two-dimensional magnet , 2019, Nature Physics.

[8]  Jeil Jung,et al.  Magnetoelectric Response of Antiferromagnetic Van der Waals Bilayers , 2019, 1902.06418.

[9]  Xiang Zhang,et al.  Two-dimensional magnetic crystals and emergent heterostructure devices , 2019, Science.

[10]  A. Morpurgo,et al.  Probing magnetism in 2D materials at the nanoscale with single-spin microscopy , 2019, Science.

[11]  Cheol-Hwan Park,et al.  Suppression of magnetic ordering in XXZ-type antiferromagnetic monolayer NiPS3 , 2019, Nature Communications.

[12]  Rong Yang,et al.  2D proximate quantum spin liquid state in atomic-thin α-RuCl3 , 2018, 2D Materials.

[13]  D. Mandrus,et al.  Magnetism in two-dimensional van der Waals materials , 2018, Nature.

[14]  W. Yao,et al.  Skyrmions in the Moiré of van der Waals 2D Magnets. , 2018, Nano letters.

[15]  M. Jeong,et al.  Microscopic understanding of magnetic interactions in bilayer CrI3 , 2018, Physical Review Materials.

[16]  D. Graf,et al.  Tuning superconductivity in twisted bilayer graphene , 2018, Science.

[17]  Satoshi Okamoto,et al.  Stacking-Dependent Magnetism in Bilayer CrI3. , 2018, Nano letters.

[18]  Takashi Taniguchi,et al.  Voltage Control of a van der Waals Spin-Filter Magnetic Tunnel Junction. , 2018, Nano letters.

[19]  J. Shan,et al.  Spin transistor built on 2D van der Waals heterostructures , 2018, 1807.04898.

[20]  Y. Liu,et al.  Lattice dynamics and phase transition in CrI3 single crystals , 2018, Physical Review B.

[21]  D. Soriano,et al.  Interplay between interlayer exchange and stacking in CrI3 bilayers , 2018, Solid State Communications.

[22]  Zhe Yuan,et al.  Stacking tunable interlayer magnetism in bilayer CrI3 , 2018, Physical Review B.

[23]  C. N. Lau,et al.  Raman Spectroscopy, Photocatalytic Degradation, and Stabilization of Atomically Thin Chromium Tri-iodide. , 2018, Nano letters.

[24]  Hyun Ho Kim,et al.  One Million Percent Tunnel Magnetoresistance in a Magnetic van der Waals Heterostructure. , 2018, Nano letters.

[25]  E. Kaxiras,et al.  Raman spectrum of CrI3 : An abinitio study , 2018, Physical Review B.

[26]  Jie Shan,et al.  Electric-field switching of two-dimensional van der Waals magnets , 2018, Nature Materials.

[27]  Wang Yao,et al.  Two-dimensional itinerant ferromagnetism in atomically thin Fe3GeTe2 , 2018, Nature Materials.

[28]  Yuanbo Zhang,et al.  Gate-tunable room-temperature ferromagnetism in two-dimensional Fe3GeTe2 , 2018, Nature.

[29]  Michael A. McGuire,et al.  Electrical control of 2D magnetism in bilayer CrI3 , 2018, Nature Nanotechnology.

[30]  Jie Shan,et al.  Controlling magnetism in 2D CrI3 by electrostatic doping , 2018, Nature Nanotechnology.

[31]  Raja Das,et al.  Strong room-temperature ferromagnetism in VSe2 monolayers on van der Waals substrates , 2018, Nature Nanotechnology.

[32]  Hanwen Wang,et al.  Electric-field control of magnetism in a few-layered van der Waals ferromagnetic semiconductor , 2018, Nature Nanotechnology.

[33]  T. Taniguchi,et al.  Probing magnetism in 2D van der Waals crystalline insulators via electron tunneling , 2018, Science.

[34]  Xiaodong Xu,et al.  Giant tunneling magnetoresistance in spin-filter van der Waals heterostructures , 2018, Science.

[35]  Takashi Taniguchi,et al.  Very large tunneling magnetoresistance in layered magnetic semiconductor CrI3 , 2018, Nature Communications.

[36]  S. Banerjee,et al.  Towards band structure and band offset engineering of monolayer Mo(1−x)W(x)S2 via Strain , 2017 .

[37]  D. Graf,et al.  Dynamic band-structure tuning of graphene moiré superlattices with pressure , 2017, Nature.

[38]  Michael A. McGuire,et al.  Layer-dependent ferromagnetism in a van der Waals crystal down to the monolayer limit , 2017, Nature.

[39]  S. Louie,et al.  Discovery of intrinsic ferromagnetism in two-dimensional van der Waals crystals , 2017, Nature.

[40]  Huiwen Ji,et al.  Magneto-elastic coupling in a potential ferromagnetic 2D atomic crystal , 2016, 1604.08745.

[41]  M. Lumsden,et al.  Low-temperature crystal and magnetic structure of α -RuCl 3 , 2016, 1602.08112.

[42]  Brian C. Sales,et al.  Coupling of Crystal Structure and Magnetism in the Layered, Ferromagnetic Insulator CrI3 , 2015 .

[43]  Z. Qiao,et al.  Ab-Initio Theory of Moiré Superlattice Bands in Layered Two-Dimensional Materials , 2013, 1312.7723.

[44]  K. L. Shepard,et al.  One-Dimensional Electrical Contact to a Two-Dimensional Material , 2013, Science.

[45]  F. Guinea,et al.  The electronic properties of graphene , 2007, Reviews of Modern Physics.