Phase engineering of Cr5Te8 with colossal anomalous Hall effect

Bijun Tang; Xiaowei Wang; Mengjiao Han; Xiaodong Xu; Zhaowei Zhang; Chao Zhu; Xun Cao; Yumeng Yang; Qundong Fu; Jianqun Yang; Xingji Li; Weibo Gao; Jiadong Zhou; Junhao Lin; Zheng Liu

doi:10.1038/s41928-022-00754-6

Phase engineering of Cr₅Te₈ with colossal anomalous Hall effect

Bijun Tang, Xiaowei Wang, Mengjiao Han, Xiaodong Xu, Zhaowei Zhang, Chao Zhu, Xun Cao, Yumeng Yang, Qundong Fu, Jianqun Yang, Xingji Li^*, Weibo Gao, Jiadong Zhou^*, Junhao Lin^*, Zheng Liu^*

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

93 Citations (Scopus)

Abstract

Two-dimensional materials that are intrinsically ferromagnetic are crucial for the development of compact spintronic devices. However, most non-layered 2D magnets with a strong ferromagnetic order are difficult to synthesize. Here we show that the flakes of trigonal and monoclinic Cr₅Te₈ can be grown via a chemical vapour deposition method. Using magneto-optical and magnetotransport measurements, we show that both phases exhibit robust ferromagnetism with strong perpendicular anisotropy at thicknesses of a few nanometres. A high Curie temperature of up to 200 K can be obtained by manipulating the phase structure and thickness. We also observe a colossal anomalous Hall effect in the more structurally distorted monoclinic Cr₅Te₈, with an anomalous Hall conductivity of 650 Ω⁻¹ cm⁻¹ and anomalous Hall angle of 5%.

Original language	English
Pages (from-to)	224-232
Number of pages	9
Journal	Nature Electronics
Volume	5
Issue number	4
DOIs	https://doi.org/10.1038/s41928-022-00754-6
Publication status	Published - Apr 2022

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title = "Phase engineering of Cr5Te8 with colossal anomalous Hall effect",

abstract = "Two-dimensional materials that are intrinsically ferromagnetic are crucial for the development of compact spintronic devices. However, most non-layered 2D magnets with a strong ferromagnetic order are difficult to synthesize. Here we show that the flakes of trigonal and monoclinic Cr5Te8 can be grown via a chemical vapour deposition method. Using magneto-optical and magnetotransport measurements, we show that both phases exhibit robust ferromagnetism with strong perpendicular anisotropy at thicknesses of a few nanometres. A high Curie temperature of up to 200 K can be obtained by manipulating the phase structure and thickness. We also observe a colossal anomalous Hall effect in the more structurally distorted monoclinic Cr5Te8, with an anomalous Hall conductivity of 650 Ω−1 cm−1 and anomalous Hall angle of 5%.",

author = "Bijun Tang and Xiaowei Wang and Mengjiao Han and Xiaodong Xu and Zhaowei Zhang and Chao Zhu and Xun Cao and Yumeng Yang and Qundong Fu and Jianqun Yang and Xingji Li and Weibo Gao and Jiadong Zhou and Junhao Lin and Zheng Liu",

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doi = "10.1038/s41928-022-00754-6",

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T1 - Phase engineering of Cr5Te8 with colossal anomalous Hall effect

AU - Tang, Bijun

AU - Wang, Xiaowei

AU - Han, Mengjiao

AU - Xu, Xiaodong

AU - Zhang, Zhaowei

AU - Zhu, Chao

AU - Cao, Xun

AU - Yang, Yumeng

AU - Fu, Qundong

AU - Yang, Jianqun

AU - Li, Xingji

AU - Gao, Weibo

AU - Zhou, Jiadong

AU - Lin, Junhao

AU - Liu, Zheng

PY - 2022/4

Y1 - 2022/4

N2 - Two-dimensional materials that are intrinsically ferromagnetic are crucial for the development of compact spintronic devices. However, most non-layered 2D magnets with a strong ferromagnetic order are difficult to synthesize. Here we show that the flakes of trigonal and monoclinic Cr5Te8 can be grown via a chemical vapour deposition method. Using magneto-optical and magnetotransport measurements, we show that both phases exhibit robust ferromagnetism with strong perpendicular anisotropy at thicknesses of a few nanometres. A high Curie temperature of up to 200 K can be obtained by manipulating the phase structure and thickness. We also observe a colossal anomalous Hall effect in the more structurally distorted monoclinic Cr5Te8, with an anomalous Hall conductivity of 650 Ω−1 cm−1 and anomalous Hall angle of 5%.

AB - Two-dimensional materials that are intrinsically ferromagnetic are crucial for the development of compact spintronic devices. However, most non-layered 2D magnets with a strong ferromagnetic order are difficult to synthesize. Here we show that the flakes of trigonal and monoclinic Cr5Te8 can be grown via a chemical vapour deposition method. Using magneto-optical and magnetotransport measurements, we show that both phases exhibit robust ferromagnetism with strong perpendicular anisotropy at thicknesses of a few nanometres. A high Curie temperature of up to 200 K can be obtained by manipulating the phase structure and thickness. We also observe a colossal anomalous Hall effect in the more structurally distorted monoclinic Cr5Te8, with an anomalous Hall conductivity of 650 Ω−1 cm−1 and anomalous Hall angle of 5%.

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DO - 10.1038/s41928-022-00754-6

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VL - 5

SP - 224

EP - 232

JO - Nature Electronics

JF - Nature Electronics

IS - 4

ER -

Phase engineering of Cr₅Te₈ with colossal anomalous Hall effect

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