Spatially Separated Superconductivity and Enhanced Charge-Density-Wave Ordering in an IrTe2 Nanoflake

Yanpeng Song; Fanqi Meng; Tianping Ying; Jun Deng; Junjie Wang; Xu Han; Qinghua Zhang; Yuan Huang; Jian Gang Guo; Xiaolong Chen

doi:10.1021/acs.jpclett.1c03302

Spatially Separated Superconductivity and Enhanced Charge-Density-Wave Ordering in an IrTe₂ Nanoflake

Yanpeng Song
, Fanqi Meng
, Tianping Ying
, Jun Deng
, Junjie Wang
, Xu Han
, Qinghua Zhang
, Yuan Huang
, Jian Gang Guo
, Xiaolong Chen

CAS - Institute of Physics
University of Chinese Academy of Sciences
Beijing Institute of Technology
Songshan Lake Materials Laboratory

科研成果: 期刊稿件 › 文章 › 同行评审

9 引用（Scopus）

摘要

The interplay among collective electronic states like superconductivity (SC) and charge density wave (CDW) is of significance in transition metal dichalcogenides. To date, a consensus on the relationship between SC and CDW has not been established in IrTe₂. Here we use the Au-assisted exfoliation method to cleave IrTe₂ down to 10 nm. A striking feature is the concurrence of phase separation in a single piece of nanoflake, i.e., the superconducting (P3̅m1) and CDW (P3̅) phases. In the former area, the dimensional fluctuations suppress the CDW ordering and induce SC at 3.5 K. The CDW area at the phase boundary shows enhanced T_CDW at 605 K (T_CDW = 280 K in the bulk phase), which is accompanied by a unique wrinkle. Detailed analyses suggest that the strain-induced bond breaking of Te–Te dimers favors the CDW.

源语言	英语
页（从-至）	12180-12186
页数	7
期刊	Journal of Physical Chemistry Letters
卷	12
期	51
DOI	https://doi.org/10.1021/acs.jpclett.1c03302
出版状态	已出版 - 30 12月 2021
已对外发布	是

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10.1021/acs.jpclett.1c03302

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title = "Spatially Separated Superconductivity and Enhanced Charge-Density-Wave Ordering in an IrTe2 Nanoflake",

abstract = "The interplay among collective electronic states like superconductivity (SC) and charge density wave (CDW) is of significance in transition metal dichalcogenides. To date, a consensus on the relationship between SC and CDW has not been established in IrTe2. Here we use the Au-assisted exfoliation method to cleave IrTe2 down to 10 nm. A striking feature is the concurrence of phase separation in a single piece of nanoflake, i.e., the superconducting (P3̅m1) and CDW (P3̅) phases. In the former area, the dimensional fluctuations suppress the CDW ordering and induce SC at 3.5 K. The CDW area at the phase boundary shows enhanced TCDW at 605 K (TCDW = 280 K in the bulk phase), which is accompanied by a unique wrinkle. Detailed analyses suggest that the strain-induced bond breaking of Te–Te dimers favors the CDW.",

author = "Yanpeng Song and Fanqi Meng and Tianping Ying and Jun Deng and Junjie Wang and Xu Han and Qinghua Zhang and Yuan Huang and Guo, \{Jian Gang\} and Xiaolong Chen",

note = "Publisher Copyright: {\textcopyright} 2021 American Chemical Society",

year = "2021",

month = dec,

day = "30",

doi = "10.1021/acs.jpclett.1c03302",

language = "英语",

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TY - JOUR

T1 - Spatially Separated Superconductivity and Enhanced Charge-Density-Wave Ordering in an IrTe2 Nanoflake

AU - Song, Yanpeng

AU - Meng, Fanqi

AU - Ying, Tianping

AU - Deng, Jun

AU - Wang, Junjie

AU - Han, Xu

AU - Zhang, Qinghua

AU - Huang, Yuan

AU - Guo, Jian Gang

AU - Chen, Xiaolong

PY - 2021/12/30

Y1 - 2021/12/30

N2 - The interplay among collective electronic states like superconductivity (SC) and charge density wave (CDW) is of significance in transition metal dichalcogenides. To date, a consensus on the relationship between SC and CDW has not been established in IrTe2. Here we use the Au-assisted exfoliation method to cleave IrTe2 down to 10 nm. A striking feature is the concurrence of phase separation in a single piece of nanoflake, i.e., the superconducting (P3̅m1) and CDW (P3̅) phases. In the former area, the dimensional fluctuations suppress the CDW ordering and induce SC at 3.5 K. The CDW area at the phase boundary shows enhanced TCDW at 605 K (TCDW = 280 K in the bulk phase), which is accompanied by a unique wrinkle. Detailed analyses suggest that the strain-induced bond breaking of Te–Te dimers favors the CDW.

AB - The interplay among collective electronic states like superconductivity (SC) and charge density wave (CDW) is of significance in transition metal dichalcogenides. To date, a consensus on the relationship between SC and CDW has not been established in IrTe2. Here we use the Au-assisted exfoliation method to cleave IrTe2 down to 10 nm. A striking feature is the concurrence of phase separation in a single piece of nanoflake, i.e., the superconducting (P3̅m1) and CDW (P3̅) phases. In the former area, the dimensional fluctuations suppress the CDW ordering and induce SC at 3.5 K. The CDW area at the phase boundary shows enhanced TCDW at 605 K (TCDW = 280 K in the bulk phase), which is accompanied by a unique wrinkle. Detailed analyses suggest that the strain-induced bond breaking of Te–Te dimers favors the CDW.

UR - https://www.scopus.com/pages/publications/85121921354

U2 - 10.1021/acs.jpclett.1c03302

DO - 10.1021/acs.jpclett.1c03302

M3 - 文章

C2 - 34918519

AN - SCOPUS:85121921354

SN - 1948-7185

VL - 12

SP - 12180

EP - 12186

JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 51

ER -

Spatially Separated Superconductivity and Enhanced Charge-Density-Wave Ordering in an IrTe2 Nanoflake

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Spatially Separated Superconductivity and Enhanced Charge-Density-Wave Ordering in an IrTe₂ Nanoflake