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Long-range ordered porous carbons produced from C60

Author

Listed:
  • Fei Pan

    (University of Science and Technology of China)

  • Kun Ni

    (University of Science and Technology of China)

  • Tao Xu

    (Southeast University)

  • Huaican Chen

    (Chinese Academy of Sciences
    Spallation Neutron Source Science Center)

  • Yusong Wang

    (University of Science and Technology of China)

  • Ke Gong

    (University of Science and Technology of China)

  • Cai Liu

    (International Quantum Academy
    Southern University of Science and Technology
    Southern University of Science and Technology)

  • Xin Li

    (University of Science and Technology of China)

  • Miao-Ling Lin

    (Chinese Academy of Sciences)

  • Shengyuan Li

    (University of Science and Technology of China)

  • Xia Wang

    (University of Science and Technology of China)

  • Wensheng Yan

    (University of Science and Technology of China)

  • Wen Yin

    (Chinese Academy of Sciences
    Spallation Neutron Source Science Center)

  • Ping-Heng Tan

    (Chinese Academy of Sciences)

  • Litao Sun

    (Southeast University)

  • Dapeng Yu

    (International Quantum Academy
    Southern University of Science and Technology
    Southern University of Science and Technology)

  • Rodney S. Ruoff

    (Institute for Basic Science
    Ulsan National Institute of Science and Technology (UNIST)
    UNIST
    UNIST)

  • Yanwu Zhu

    (University of Science and Technology of China
    University of Science and Technology of China)

Abstract

Carbon structures with covalent bonds connecting C60 molecules have been reported1–3, but their production methods typically result in very small amounts of sample, which restrict the detailed characterization and exploration necessary for potential applications. We report the gram-scale preparation of a new type of carbon, long-range ordered porous carbon (LOPC), from C60 powder catalysed by α-Li3N at ambient pressure. LOPC consists of connected broken C60 cages that maintain long-range periodicity, and has been characterized by X-ray diffraction, Raman spectroscopy, magic-angle spinning solid-state nuclear magnetic resonance spectroscopy, aberration-corrected transmission electron microscopy and neutron scattering. Numerical simulations based on a neural network show that LOPC is a metastable structure produced during the transformation from fullerene-type to graphene-type carbons. At a lower temperature, shorter annealing time or by using less α-Li3N, a well-known polymerized C60 crystal forms owing to the electron transfer from α-Li3N to C60. The carbon K-edge near-edge X-ray absorption fine structure shows a higher degree of delocalization of electrons in LOPC than in C60(s). The electrical conductivity is 1.17 × 10−2 S cm−1 at room temperature, and conduction at T

Suggested Citation

  • Fei Pan & Kun Ni & Tao Xu & Huaican Chen & Yusong Wang & Ke Gong & Cai Liu & Xin Li & Miao-Ling Lin & Shengyuan Li & Xia Wang & Wensheng Yan & Wen Yin & Ping-Heng Tan & Litao Sun & Dapeng Yu & Rodney , 2023. "Long-range ordered porous carbons produced from C60," Nature, Nature, vol. 614(7946), pages 95-101, February.
  • Handle: RePEc:nat:nature:v:614:y:2023:i:7946:d:10.1038_s41586-022-05532-0
    DOI: 10.1038/s41586-022-05532-0
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    Cited by:

    1. Ogutu B. Osoro & Edward J. Oughton & Andrew R. Wilson & Akhil Rao, 2023. "Sustainability assessment of Low Earth Orbit (LEO) satellite broadband megaconstellations," Papers 2309.02338, arXiv.org, revised Mar 2024.
    2. Sadiq, Muhammad & Alshehhi, Reem J. & Urs, Rahul Rajeevkumar & Mayyas, Ahmad T., 2023. "Techno-economic analysis of Green-H2@Scale production," Renewable Energy, Elsevier, vol. 219(P1).

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