Multiferroicity in two dimensional Co2Cl2 monolayer

Xinlong Yang; Ziyu Hu; Xiaohong Shao; Fawei Zheng

doi:10.1038/s43246-025-00855-7

Multiferroicity in two dimensional Co₂Cl₂ monolayer

Xinlong Yang, Ziyu Hu^*, Xiaohong Shao, Fawei Zheng^*

^*Corresponding author for this work

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

Abstract

Multiferroicity has been studied for about 70 years and resurging recently due to rapid experimental and theoretical advances. However, two-dimensional ferromagnetic-ferroelastic multiferroicity, which is crucial to magneto-elastic nanodevices, is still very rare. Here, we propose that the Co₂Cl₂ monolayer exhibits ferromagnetic-ferroelastic multiferroicity. The system has two asymmetric phases: FE-I, a metallic ferromagnetic phase, and FE-II, a semiconducting antiferromagnetic phase, which can be switched by strain. We show that Co₂Cl₂ monolayers undergo both metal-insulator and ferromagnetism-antiferromagnetism transitions due to the different crystal fields surrounding Co²⁺ ions. Interestingly, both the ferromagnetic and antiferromagnetic phases exhibit high critical temperatures, making this material promising for device applications.

Original language	English
Article number	131
Journal	Communications Materials
Volume	6
Issue number	1
DOIs	http://doi.org/10.1038/s43246-025-00855-7
Publication status	Published - Dec 2025
Externally published	Yes

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title = "Multiferroicity in two dimensional Co2Cl2 monolayer",

abstract = "Multiferroicity has been studied for about 70 years and resurging recently due to rapid experimental and theoretical advances. However, two-dimensional ferromagnetic-ferroelastic multiferroicity, which is crucial to magneto-elastic nanodevices, is still very rare. Here, we propose that the Co2Cl2 monolayer exhibits ferromagnetic-ferroelastic multiferroicity. The system has two asymmetric phases: FE-I, a metallic ferromagnetic phase, and FE-II, a semiconducting antiferromagnetic phase, which can be switched by strain. We show that Co2Cl2 monolayers undergo both metal-insulator and ferromagnetism-antiferromagnetism transitions due to the different crystal fields surrounding Co2+ ions. Interestingly, both the ferromagnetic and antiferromagnetic phases exhibit high critical temperatures, making this material promising for device applications.",

author = "Xinlong Yang and Ziyu Hu and Xiaohong Shao and Fawei Zheng",

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T1 - Multiferroicity in two dimensional Co2Cl2 monolayer

AU - Yang, Xinlong

AU - Hu, Ziyu

AU - Shao, Xiaohong

AU - Zheng, Fawei

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/12

Y1 - 2025/12

N2 - Multiferroicity has been studied for about 70 years and resurging recently due to rapid experimental and theoretical advances. However, two-dimensional ferromagnetic-ferroelastic multiferroicity, which is crucial to magneto-elastic nanodevices, is still very rare. Here, we propose that the Co2Cl2 monolayer exhibits ferromagnetic-ferroelastic multiferroicity. The system has two asymmetric phases: FE-I, a metallic ferromagnetic phase, and FE-II, a semiconducting antiferromagnetic phase, which can be switched by strain. We show that Co2Cl2 monolayers undergo both metal-insulator and ferromagnetism-antiferromagnetism transitions due to the different crystal fields surrounding Co2+ ions. Interestingly, both the ferromagnetic and antiferromagnetic phases exhibit high critical temperatures, making this material promising for device applications.

AB - Multiferroicity has been studied for about 70 years and resurging recently due to rapid experimental and theoretical advances. However, two-dimensional ferromagnetic-ferroelastic multiferroicity, which is crucial to magneto-elastic nanodevices, is still very rare. Here, we propose that the Co2Cl2 monolayer exhibits ferromagnetic-ferroelastic multiferroicity. The system has two asymmetric phases: FE-I, a metallic ferromagnetic phase, and FE-II, a semiconducting antiferromagnetic phase, which can be switched by strain. We show that Co2Cl2 monolayers undergo both metal-insulator and ferromagnetism-antiferromagnetism transitions due to the different crystal fields surrounding Co2+ ions. Interestingly, both the ferromagnetic and antiferromagnetic phases exhibit high critical temperatures, making this material promising for device applications.

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DO - 10.1038/s43246-025-00855-7

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Multiferroicity in two dimensional Co₂Cl₂ monolayer

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