Chemical Vapor Deposition Synthesis of Intrinsic High-Temperature Ferroelectric 2D CuCrSe2

Ping Wang; Yang Zhao; Rui Na; Weikang Dong; Jingyi Duan; Yue Cheng; Boyu Xu; Denan Kong; Jijian Liu; Shuang Du; Chunyu Zhao; Yang Yang; Lu Lv; Qingmei Hu; Hui Ai; Yan Xiong; Vasily S. Stolyarov; Shoujun Zheng; Yao Zhou; Fang Deng; Jiadong Zhou

doi:10.1002/adma.202400655

Chemical Vapor Deposition Synthesis of Intrinsic High-Temperature Ferroelectric 2D CuCrSe₂

Ping Wang, Yang Zhao, Rui Na, Weikang Dong, Jingyi Duan, Yue Cheng, Boyu Xu, Denan Kong, Jijian Liu, Shuang Du, Chunyu Zhao, Yang Yang, Lu Lv, Qingmei Hu, Hui Ai, Yan Xiong, Vasily S. Stolyarov, Shoujun Zheng, Yao Zhou, Fang DengJiadong Zhou^*

^*Corresponding author for this work

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

6 Citations (Scopus)

Abstract

Ultrathin 2D ferroelectrics with high Curie temperature are critical for multifunctional ferroelectric devices. However, the ferroelectric spontaneous polarization is consistently broken by the strong thermal fluctuations at high temperature, resulting in the rare discovery of high-temperature ferroelectricity in 2D materials. Here, a chemical vapor deposition method is reported to synthesize 2D CuCrSe₂ nanosheets. The crystal structure is confirmed by scanning transmission electron microscopy characterization. The measured ferroelectric phase transition temperature of ultrathin CuCrSe₂ is about ≈800 K. Significantly, the switchable ferroelectric polarization is observed in ≈5.2 nm nanosheet. Moreover, the in-plane and out-of-plane ferroelectric response are modulated by different maximum bias voltage. This work provides a new insight into the construction of 2D ferroelectrics with high Curie temperature.

Original language	English
Article number	2400655
Journal	Advanced Materials
Volume	36
Issue number	23
DOIs	https://doi.org/10.1002/adma.202400655
Publication status	Published - 6 Jun 2024

Keywords

2D materials
CuCrSe
chemical vapor deposition
ferroelectricity
high Curie temperature

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10.1002/adma.202400655

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Wang, P., Zhao, Y., Na, R., Dong, W., Duan, J., Cheng, Y., Xu, B., Kong, D., Liu, J., Du, S., Zhao, C., Yang, Y., Lv, L., Hu, Q., Ai, H., Xiong, Y., Stolyarov, V. S., Zheng, S., Zhou, Y., ... Zhou, J. (2024). Chemical Vapor Deposition Synthesis of Intrinsic High-Temperature Ferroelectric 2D CuCrSe₂. Advanced Materials, 36(23), Article 2400655. https://doi.org/10.1002/adma.202400655

@article{29d6674b072d459588a0c0ec453c39a5,

title = "Chemical Vapor Deposition Synthesis of Intrinsic High-Temperature Ferroelectric 2D CuCrSe2",

abstract = "Ultrathin 2D ferroelectrics with high Curie temperature are critical for multifunctional ferroelectric devices. However, the ferroelectric spontaneous polarization is consistently broken by the strong thermal fluctuations at high temperature, resulting in the rare discovery of high-temperature ferroelectricity in 2D materials. Here, a chemical vapor deposition method is reported to synthesize 2D CuCrSe2 nanosheets. The crystal structure is confirmed by scanning transmission electron microscopy characterization. The measured ferroelectric phase transition temperature of ultrathin CuCrSe2 is about ≈800 K. Significantly, the switchable ferroelectric polarization is observed in ≈5.2 nm nanosheet. Moreover, the in-plane and out-of-plane ferroelectric response are modulated by different maximum bias voltage. This work provides a new insight into the construction of 2D ferroelectrics with high Curie temperature.",

keywords = "2D materials, CuCrSe, chemical vapor deposition, ferroelectricity, high Curie temperature",

author = "Ping Wang and Yang Zhao and Rui Na and Weikang Dong and Jingyi Duan and Yue Cheng and Boyu Xu and Denan Kong and Jijian Liu and Shuang Du and Chunyu Zhao and Yang Yang and Lu Lv and Qingmei Hu and Hui Ai and Yan Xiong and Stolyarov, {Vasily S.} and Shoujun Zheng and Yao Zhou and Fang Deng and Jiadong Zhou",

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year = "2024",

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doi = "10.1002/adma.202400655",

language = "English",

volume = "36",

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TY - JOUR

T1 - Chemical Vapor Deposition Synthesis of Intrinsic High-Temperature Ferroelectric 2D CuCrSe2

AU - Wang, Ping

AU - Zhao, Yang

AU - Na, Rui

AU - Dong, Weikang

AU - Duan, Jingyi

AU - Cheng, Yue

AU - Xu, Boyu

AU - Kong, Denan

AU - Liu, Jijian

AU - Du, Shuang

AU - Zhao, Chunyu

AU - Yang, Yang

AU - Lv, Lu

AU - Hu, Qingmei

AU - Ai, Hui

AU - Xiong, Yan

AU - Stolyarov, Vasily S.

AU - Zheng, Shoujun

AU - Zhou, Yao

AU - Deng, Fang

AU - Zhou, Jiadong

PY - 2024/6/6

Y1 - 2024/6/6

N2 - Ultrathin 2D ferroelectrics with high Curie temperature are critical for multifunctional ferroelectric devices. However, the ferroelectric spontaneous polarization is consistently broken by the strong thermal fluctuations at high temperature, resulting in the rare discovery of high-temperature ferroelectricity in 2D materials. Here, a chemical vapor deposition method is reported to synthesize 2D CuCrSe2 nanosheets. The crystal structure is confirmed by scanning transmission electron microscopy characterization. The measured ferroelectric phase transition temperature of ultrathin CuCrSe2 is about ≈800 K. Significantly, the switchable ferroelectric polarization is observed in ≈5.2 nm nanosheet. Moreover, the in-plane and out-of-plane ferroelectric response are modulated by different maximum bias voltage. This work provides a new insight into the construction of 2D ferroelectrics with high Curie temperature.

AB - Ultrathin 2D ferroelectrics with high Curie temperature are critical for multifunctional ferroelectric devices. However, the ferroelectric spontaneous polarization is consistently broken by the strong thermal fluctuations at high temperature, resulting in the rare discovery of high-temperature ferroelectricity in 2D materials. Here, a chemical vapor deposition method is reported to synthesize 2D CuCrSe2 nanosheets. The crystal structure is confirmed by scanning transmission electron microscopy characterization. The measured ferroelectric phase transition temperature of ultrathin CuCrSe2 is about ≈800 K. Significantly, the switchable ferroelectric polarization is observed in ≈5.2 nm nanosheet. Moreover, the in-plane and out-of-plane ferroelectric response are modulated by different maximum bias voltage. This work provides a new insight into the construction of 2D ferroelectrics with high Curie temperature.

KW - 2D materials

KW - CuCrSe

KW - chemical vapor deposition

KW - ferroelectricity

KW - high Curie temperature

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DO - 10.1002/adma.202400655

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VL - 36

JO - Advanced Materials

JF - Advanced Materials

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ER -

Chemical Vapor Deposition Synthesis of Intrinsic High-Temperature Ferroelectric 2D CuCrSe₂

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