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Observation of non-superconducting phase changes in nitrogen doped lutetium hydrides

Author

Listed:
  • Xiangzhuo Xing

    (Qufu Normal University
    Qufu Normal University)

  • Chao Wang

    (Qufu Normal University
    Qufu Normal University)

  • Linchao Yu

    (Qufu Normal University)

  • Jie Xu

    (Qufu Normal University)

  • Chutong Zhang

    (Qufu Normal University)

  • Mengge Zhang

    (Qufu Normal University)

  • Song Huang

    (Qufu Normal University)

  • Xiaoran Zhang

    (Qufu Normal University)

  • Yunxian Liu

    (Qufu Normal University
    Qufu Normal University)

  • Bingchao Yang

    (Qufu Normal University
    Qufu Normal University)

  • Xin Chen

    (Qufu Normal University
    Qufu Normal University)

  • Yongsheng Zhang

    (Qufu Normal University
    Qufu Normal University)

  • Jiangang Guo

    (Chinese Academy of Sciences)

  • Zhixiang Shi

    (Southeast University)

  • Yanming Ma

    (Jilin University
    Jilin University
    Jilin University)

  • Changfeng Chen

    (University of Nevada)

  • Xiaobing Liu

    (Qufu Normal University
    Qufu Normal University)

Abstract

The recent report of near-ambient superconductivity and associated color changes in pressurized nitrogen doped lutetium hydride has triggered worldwide interest and raised major questions about the nature and underlying physics of these latest claims. Here we report synthesis and characterization of high-purity nitrogen doped lutetium hydride LuH2±xNy. We find that pressure conditions have notable effects on Lu-N and Lu-NH chemical bonding and the color changes likely stem from pressure-induced electron redistribution of nitrogen/vacancies and interaction with the LuH2 framework. No superconducting transition is found in all the phases at temperatures 1.8-300 K and pressures 0-38 GPa. Instead, we identify a notable temperature-induced resistance anomaly of electronic origin in LuH2±xNy, which is most pronounced in the pink phase and may have been erroneously interpreted as a sign of superconducting transition. This work establishes key benchmarks for nitrogen doped lutetium hydrides, allowing an in-depth understanding of its novel pressure-induced phase changes.

Suggested Citation

  • Xiangzhuo Xing & Chao Wang & Linchao Yu & Jie Xu & Chutong Zhang & Mengge Zhang & Song Huang & Xiaoran Zhang & Yunxian Liu & Bingchao Yang & Xin Chen & Yongsheng Zhang & Jiangang Guo & Zhixiang Shi & , 2023. "Observation of non-superconducting phase changes in nitrogen doped lutetium hydrides," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-41777-7
    DOI: 10.1038/s41467-023-41777-7
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    References listed on IDEAS

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    Cited by:

    1. Cesare Tresca & Pietro Maria Forcella & Andrea Angeletti & Luigi Ranalli & Cesare Franchini & Michele Reticcioli & Gianni Profeta, 2024. "Molecular hydrogen in the N-doped LuH3 system as a possible path to superconductivity," Nature Communications, Nature, vol. 15(1), pages 1-7, December.
    2. Sun-Woo Kim & Lewis J. Conway & Chris J. Pickard & G. Lucian Pascut & Bartomeu Monserrat, 2023. "Microscopic theory of colour in lutetium hydride," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    3. Roman Lucrezi & Pedro P. Ferreira & Markus Aichhorn & Christoph Heil, 2024. "Temperature and quantum anharmonic lattice effects on stability and superconductivity in lutetium trihydride," Nature Communications, Nature, vol. 15(1), pages 1-7, December.

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