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Gate-tunable room-temperature ferromagnetism in two-dimensional Fe3GeTe2

Author

Listed:
  • Yujun Deng

    (Fudan University
    Nanjing University
    Fudan University)

  • Yijun Yu

    (Fudan University
    Nanjing University
    Fudan University)

  • Yichen Song

    (Fudan University
    Nanjing University
    Fudan University)

  • Jingzhao Zhang

    (The Chinese University of Hong Kong)

  • Nai Zhou Wang

    (Nanjing University
    University of Science and Technology of China
    University of Science and Technology of China)

  • Zeyuan Sun

    (Fudan University
    Nanjing University)

  • Yangfan Yi

    (Fudan University
    Nanjing University)

  • Yi Zheng Wu

    (Fudan University
    Nanjing University)

  • Shiwei Wu

    (Fudan University
    Nanjing University
    Fudan University)

  • Junyi Zhu

    (The Chinese University of Hong Kong)

  • Jing Wang

    (Fudan University
    Nanjing University)

  • Xian Hui Chen

    (Nanjing University
    University of Science and Technology of China
    University of Science and Technology of China)

  • Yuanbo Zhang

    (Fudan University
    Nanjing University
    Fudan University)

Abstract

Materials research has driven the development of modern nano-electronic devices. In particular, research in magnetic thin films has revolutionized the development of spintronic devices1,2 because identifying new magnetic materials is key to better device performance and design. Van der Waals crystals retain their chemical stability and structural integrity down to the monolayer and, being atomically thin, are readily tuned by various kinds of gate modulation3,4. Recent experiments have demonstrated that it is possible to obtain two-dimensional ferromagnetic order in insulating Cr2Ge2Te6 (ref. 5) and CrI3 (ref. 6) at low temperatures. Here we develop a device fabrication technique and isolate monolayers from the layered metallic magnet Fe3GeTe2 to study magnetotransport. We find that the itinerant ferromagnetism persists in Fe3GeTe2 down to the monolayer with an out-of-plane magnetocrystalline anisotropy. The ferromagnetic transition temperature, Tc, is suppressed relative to the bulk Tc of 205 kelvin in pristine Fe3GeTe2 thin flakes. An ionic gate, however, raises Tc to room temperature, much higher than the bulk Tc. The gate-tunable room-temperature ferromagnetism in two-dimensional Fe3GeTe2 opens up opportunities for potential voltage-controlled magnetoelectronics7–11 based on atomically thin van der Waals crystals.

Suggested Citation

  • Yujun Deng & Yijun Yu & Yichen Song & Jingzhao Zhang & Nai Zhou Wang & Zeyuan Sun & Yangfan Yi & Yi Zheng Wu & Shiwei Wu & Junyi Zhu & Jing Wang & Xian Hui Chen & Yuanbo Zhang, 2018. "Gate-tunable room-temperature ferromagnetism in two-dimensional Fe3GeTe2," Nature, Nature, vol. 563(7729), pages 94-99, November.
  • Handle: RePEc:nat:nature:v:563:y:2018:i:7729:d:10.1038_s41586-018-0626-9
    DOI: 10.1038/s41586-018-0626-9
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    Citations

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    Cited by:

    1. Yong Zhong & Cheng Peng & Haili Huang & Dandan Guan & Jinwoong Hwang & Kuan H. Hsu & Yi Hu & Chunjing Jia & Brian Moritz & Donghui Lu & Jun-Sik Lee & Jin-Feng Jia & Thomas P. Devereaux & Sung-Kwan Mo , 2023. "From Stoner to local moment magnetism in atomically thin Cr2Te3," Nature Communications, Nature, vol. 14(1), pages 1-7, December.
    2. Jing-Jing Xian & Cong Wang & Jin-Hua Nie & Rui Li & Mengjiao Han & Junhao Lin & Wen-Hao Zhang & Zhen-Yu Liu & Zhi-Mo Zhang & Mao-Peng Miao & Yangfan Yi & Shiwei Wu & Xiaodie Chen & Junbo Han & Zhengca, 2022. "Spin mapping of intralayer antiferromagnetism and field-induced spin reorientation in monolayer CrTe2," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    3. Linfeng Ai & Enze Zhang & Jinshan Yang & Xiaoyi Xie & Yunkun Yang & Zehao Jia & Yuda Zhang & Shanshan Liu & Zihan Li & Pengliang Leng & Xiangyu Cao & Xingdan Sun & Tongyao Zhang & Xufeng Kou & Zheng H, 2021. "Van der Waals ferromagnetic Josephson junctions," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    4. Boqin Song & Tianping Ying & Xianxin Wu & Wei Xia & Qiangwei Yin & Qinghua Zhang & Yanpeng Song & Xiaofan Yang & Jiangang Guo & Lin Gu & Xiaolong Chen & Jiangping Hu & Andreas P. Schnyder & Hechang Le, 2023. "Anomalous enhancement of charge density wave in kagome superconductor CsV3Sb5 approaching the 2D limit," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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