Vapor Deposition of Magnetic Van der Waals NiI2 Crystals

Haining  Liu; Xinsheng  Wang; Juanxia  Wu; Yuansha  Chen; Jing  Wan; Rui  Wen; Jinbo  Yang; Ying  Liu; Zhigang  Song; Liming  Xie

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Vapor Deposition of Magnetic Van der Waals NiI2 Crystals

机译：磁性van der waals nii2晶体的气相沉积

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摘要

The recent discovery of van der Waals magnetic materials has attracted great attention in materials science and spintronics. The preparation of ultrathin magnetic layers down to atomic thickness is challenging and is mostly by mechanical exfoliation. Here, we report vapor deposition of magnetic van der Waals NiI_(2) crystals. Two-dimensional (2D) NiI_(2) flakes are grown on SiO_(2)/Si substrates with a thickness of 5–40 nm and on hexagonal boron nitride (h -BN) down to monolayer thickness. Temperature-dependent Raman spectroscopy reveals robust magnetic phase transitions in the as-grown 2D NiI_(2) crystals down to trilayer. Electrical measurements show a semiconducting transport behavior with a high on/off ratio of 10~(6) for the NiI_(2) flakes. Lastly, density functional theory calculation shows an intralayer ferromagnetic and interlayer antiferromagnetic ordering in 2D NiI_(2). This work provides a feasible approach to epitaxy 2D magnetic transition metal halides and also offers atomically thin materials for spintronic devices.

机译：最近的van der Waals磁性材料的发现引起了材料科学和闪闪发光的极大关注。将超薄磁性层降至原子厚度的制备是具有挑战性的并且主要是通过机械剥离。在这里，我们报告磁性范德瓦尔斯Nii_（2）晶体的气相沉积。二维（2D）NiI_（2）薄片在SiO_（2）/ Si基材上生长，厚度为5-40nm，并沿六边形氮化物（ H -bn）缩小到单层厚度。温度依赖性拉曼光谱从而揭示了晶体中的稳健磁相过渡到Trilayer。电测量显示了NiI_（2）薄片的高开/关比的半导体传输行为，高于/关闭比率为10〜（6）。最后，密度泛函理论计算显示了2D NII_（2）中的腔内铁磁性和层间反铁磁性排序。这项工作提供了一种可行的磁力过渡金属卤化物方法，并为旋转式装置提供原子薄材料。

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来源
《ACS nano》 |2020年第8期|共8页
作者
Haining Liu; Xinsheng Wang; Juanxia Wu; Yuansha Chen; Jing Wan; Rui Wen; Jinbo Yang; Ying Liu; Zhigang Song; Liming Xie;
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作者单位

CAS Key Laboratory of Standardization and Measurement for Nanotechnology CAS Center for Excellence in Nanoscience National Center for Nanoscience and Technology;

CAS Key Laboratory of Standardization and Measurement for Nanotechnology CAS Center for Excellence in Nanoscience National Center for Nanoscience and Technology;

CAS Key Laboratory of Standardization and Measurement for Nanotechnology CAS Center for Excellence in Nanoscience National Center for Nanoscience and Technology;

Beijing National Laboratory for Condensed Matter Physics &

Institute of Physics Chinese Academy of Sciences;

Key Laboratory of Molecular Nanostructure and Nanotechnology Beijing National Laboratory for Molecular Sciences CAS Research/Education Center for Excellence in Molecular Sciences Institute of Chemistry Chinese Academy of Sciences;

Key Laboratory of Molecular Nanostructure and Nanotechnology Beijing National Laboratory for Molecular Sciences CAS Research/Education Center for Excellence in Molecular Sciences Institute of Chemistry Chinese Academy of Sciences;

State Key Laboratory for Mesoscopic Physics and School of Physics Peking University;

CAS Key Laboratory of Standardization and Measurement for Nanotechnology CAS Center for Excellence in Nanoscience National Center for Nanoscience and Technology;

State Key Laboratory for Mesoscopic Physics and School of Physics Peking University;

CAS Key Laboratory of Standardization and Measurement for Nanotechnology CAS Center for Excellence in Nanoscience National Center for Nanoscience and Technology;

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原文格式 PDF
正文语种 eng
中图分类分子物理学、原子物理学;
关键词
2D magnets; van der Waals materials; vapor deposition; Raman spectroscopy; phase transitions;

机译：2D磁铁;van der Wa族材料;气相沉积;拉曼光谱;相变;

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1. Generalized Van der Waals Equation for Liquid-Vapor Equilibria in a Stationary Gravitational Field [J] . Makokiyu Godlove Akumbom, Georges Collince Fouokeng, Martin Tchoffo, 凝固态物理国际期刊（英文） . 2021,第001期
2. Multiplicity of thermodynamic states of van der Waals gas in nanobubbles [J] . Xu Tang, Hongguang Zhang, Zhenjiang Guo, 中国化学工程学报（英文版） . 2021,第003期
3. Applications of 2D-Layered Palladium Diselenide and Its van der Waals Heterostructures in Electronics and Optoelectronics [J] . Yanhao Wang, Jinbo Pang, Qilin Cheng, 纳微快报：英文版 . 2021,第009期
4. Vapor Deposition of Magnetic Van der Waals NiI2 Crystals [J] . Haining Liu, Xinsheng Wang, Juanxia Wu, ACS nano . 2020,第8期

机译：磁性van der waals nii2晶体的气相沉积
5. Ultrathin Non-van der Waals Magnetic Rhombohedral Cr_2S_3: Space-Confined Chemical Vapor Deposition Synthesis and Raman Scattering Investigation [J] . Zhou Shasha, Wang Renyan, Han Junbo, Advanced Functional Materials . 2019,第3期

机译：超薄非范德华氏磁性菱形Cr_2S_3：空间受限化学气相沉积合成和拉曼散射研究
6. Van der Waals Heteroepitaxy of Te Crystallites/2H-MoTe2 Atomically Thin Films on GaAs Substrates by Using Metal-Organic Chemical-Vapor Deposition [J] . Kim Tae Wan, Kim Donghwan, Jo Yonghee, Journal of the Korean Physical Society . 2020,第2期

机译：通过使用金属 - 有机化学 - 气相沉积，van der Wa族物质/ 2h-mote2原子上薄膜在GaAs基材上
7. Helicity-Dependent Coherent Spin-Phonon Oscillations in the Ferromagnetic van der Waals Crystal CrI3 [C] . Prashant Padmanabhan, Kevin W. C. Kwock, Luis M. Martinez, Conference on Lasers and Electro-Optics . 2020

机译：铁磁范德华晶体CrI3中依赖于螺旋度的相干自旋声子振荡
8. Van der Waals Epitaxy of Cadmium Telluride Thin Films on 2D Substrates Using Metalorganic Chemical Vapor Deposition [D] . Mohanty, Dibyajyoti. 2018

机译：金属有机化学气相沉积法在2D衬底上碲化镉薄膜的Van der Waals外延
9. Van der Waals Phonon Polariton Microstructures: Van der Waals Phonon Polariton Microstructures for Configurable Infrared Electromagnetic Field Localizations (Adv. Sci. 13/2021) [O] . Wuchao Huang, Fengsheng Sun, Zebo Zheng, 2021

机译：van der Waals Phonon Polariton MicroStructure：Van der Waals Phonon可配置红外电磁场定位的POLARITON微结构（ADV。SCI。13/2021）
10. Vapor Deposition of Magnetic Van der Waals NiI2 Crystals [O] . -1

机译：磁van der waals nii2晶体的气相沉积

Vapor Deposition of Magnetic Van der Waals NiI2 Crystals

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