Semiconductor-Metal Phase Transition and Emergent Charge Density Waves in 1 T-ZrX2(X = Se, Te) at the Two-Dimensional Limit

Ming Qiang Ren; Sha Han; Jia Qi Fan; Li Wang; Pengdong Wang; Wei Ren; Kun Peng; Shujing Li; Shu Ze Wang; Fa Wei Zheng; Ping Zhang; Fangsen Li; Xucun Ma; Qi Kun Xue; Can Li Song

doi:10.1021/acs.nanolett.1c04372

Semiconductor-Metal Phase Transition and Emergent Charge Density Waves in 1 T-ZrX₂(X = Se, Te) at the Two-Dimensional Limit

Ming Qiang Ren, Sha Han, Jia Qi Fan, Li Wang, Pengdong Wang, Wei Ren, Kun Peng, Shujing Li, Shu Ze Wang, Fa Wei Zheng, Ping Zhang, Fangsen Li^*, Xucun Ma^*, Qi Kun Xue^*, Can Li Song^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

15 引用（Scopus）

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A charge density wave (CDW) is a collective quantum phenomenon in metals and features a wavelike modulation of the conduction electron density. A microscopic understanding and experimental control of this many-body electronic state in atomically thin materials remain hot topics in materials physics. By means of material engineering, we realized a dimensionality and Zr intercalation induced semiconductor-metal phase transition in 1T-ZrX2 (X = Se, Te) ultrathin films, accompanied by a commensurate 2 × 2 CDW order. Furthermore, we observed a CDW energy gap of up to 22 meV around the Fermi level. Fourier-transformed scanning tunneling microscopy and angle-resolved photoemission spectroscopy reveal that 1T-ZrX2 films exhibit the simplest Fermi surface among the known CDW materials in TMDCs, consisting only of a Zr 4d derived elliptical electron conduction band at the corners of the Brillouin zone.

源语言	英语
页（从-至）	476-484
页数	9
期刊	Nano Letters
卷	22
期	1
DOI	https://doi.org/10.1021/acs.nanolett.1c04372
出版状态	已出版 - 12 1月 2022
已对外发布	是

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title = "Semiconductor-Metal Phase Transition and Emergent Charge Density Waves in 1 T-ZrX2(X = Se, Te) at the Two-Dimensional Limit",

abstract = "A charge density wave (CDW) is a collective quantum phenomenon in metals and features a wavelike modulation of the conduction electron density. A microscopic understanding and experimental control of this many-body electronic state in atomically thin materials remain hot topics in materials physics. By means of material engineering, we realized a dimensionality and Zr intercalation induced semiconductor-metal phase transition in 1T-ZrX2 (X = Se, Te) ultrathin films, accompanied by a commensurate 2 × 2 CDW order. Furthermore, we observed a CDW energy gap of up to 22 meV around the Fermi level. Fourier-transformed scanning tunneling microscopy and angle-resolved photoemission spectroscopy reveal that 1T-ZrX2 films exhibit the simplest Fermi surface among the known CDW materials in TMDCs, consisting only of a Zr 4d derived elliptical electron conduction band at the corners of the Brillouin zone.",

keywords = "TMDC, charge density wave, interface engineering, semiconductor-metal transition, thin films",

author = "Ren, {Ming Qiang} and Sha Han and Fan, {Jia Qi} and Li Wang and Pengdong Wang and Wei Ren and Kun Peng and Shujing Li and Wang, {Shu Ze} and Zheng, {Fa Wei} and Ping Zhang and Fangsen Li and Xucun Ma and Xue, {Qi Kun} and Song, {Can Li}",

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doi = "10.1021/acs.nanolett.1c04372",

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T1 - Semiconductor-Metal Phase Transition and Emergent Charge Density Waves in 1 T-ZrX2(X = Se, Te) at the Two-Dimensional Limit

AU - Ren, Ming Qiang

AU - Han, Sha

AU - Fan, Jia Qi

AU - Wang, Li

AU - Wang, Pengdong

AU - Ren, Wei

AU - Peng, Kun

AU - Li, Shujing

AU - Wang, Shu Ze

AU - Zheng, Fa Wei

AU - Zhang, Ping

AU - Li, Fangsen

AU - Ma, Xucun

AU - Xue, Qi Kun

AU - Song, Can Li

PY - 2022/1/12

Y1 - 2022/1/12

N2 - A charge density wave (CDW) is a collective quantum phenomenon in metals and features a wavelike modulation of the conduction electron density. A microscopic understanding and experimental control of this many-body electronic state in atomically thin materials remain hot topics in materials physics. By means of material engineering, we realized a dimensionality and Zr intercalation induced semiconductor-metal phase transition in 1T-ZrX2 (X = Se, Te) ultrathin films, accompanied by a commensurate 2 × 2 CDW order. Furthermore, we observed a CDW energy gap of up to 22 meV around the Fermi level. Fourier-transformed scanning tunneling microscopy and angle-resolved photoemission spectroscopy reveal that 1T-ZrX2 films exhibit the simplest Fermi surface among the known CDW materials in TMDCs, consisting only of a Zr 4d derived elliptical electron conduction band at the corners of the Brillouin zone.

AB - A charge density wave (CDW) is a collective quantum phenomenon in metals and features a wavelike modulation of the conduction electron density. A microscopic understanding and experimental control of this many-body electronic state in atomically thin materials remain hot topics in materials physics. By means of material engineering, we realized a dimensionality and Zr intercalation induced semiconductor-metal phase transition in 1T-ZrX2 (X = Se, Te) ultrathin films, accompanied by a commensurate 2 × 2 CDW order. Furthermore, we observed a CDW energy gap of up to 22 meV around the Fermi level. Fourier-transformed scanning tunneling microscopy and angle-resolved photoemission spectroscopy reveal that 1T-ZrX2 films exhibit the simplest Fermi surface among the known CDW materials in TMDCs, consisting only of a Zr 4d derived elliptical electron conduction band at the corners of the Brillouin zone.

KW - TMDC

KW - charge density wave

KW - interface engineering

KW - semiconductor-metal transition

KW - thin films

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Semiconductor-Metal Phase Transition and Emergent Charge Density Waves in 1 T-ZrX2(X = Se, Te) at the Two-Dimensional Limit

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Semiconductor-Metal Phase Transition and Emergent Charge Density Waves in 1 T-ZrX₂(X = Se, Te) at the Two-Dimensional Limit