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Tunable thermal expansion in framework materials through redox intercalation

Author

Listed:
  • Jun Chen

    (University of Science and Technology Beijing)

  • Qilong Gao

    (University of Science and Technology Beijing)

  • Andrea Sanson

    (University of Padova)

  • Xingxing Jiang

    (Center for Crystal R&D, Key Lab of Functional Crystals and Laser Technology of Chinese Academy of Sciences, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)

  • Qingzhen Huang

    (NIST Center for Neutron Research, National Institute of Standards and Technology)

  • Alberto Carnera

    (University of Padova)

  • Clara Guglieri Rodriguez

    (Elettra Sicrotrone Trieste, Strada Statale 14 - km, in AREA Science Park)

  • Luca Olivi

    (Elettra Sicrotrone Trieste, Strada Statale 14 - km, in AREA Science Park)

  • Lei Wang

    (Center for Condensed Matter and Materials Physics, Beihang University)

  • Lei Hu

    (University of Science and Technology Beijing)

  • Kun Lin

    (University of Science and Technology Beijing)

  • Yang Ren

    (Argonne National Laboratory)

  • Zheshuai Lin

    (Center for Crystal R&D, Key Lab of Functional Crystals and Laser Technology of Chinese Academy of Sciences, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences)

  • Cong Wang

    (Center for Condensed Matter and Materials Physics, Beihang University)

  • Lin Gu

    (Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences)

  • Jinxia Deng

    (University of Science and Technology Beijing)

  • J. Paul Attfield

    (Centre for Science at Extreme Conditions and School of Chemistry, University of Edinburgh, Peter Guthrie Tait Road, King’s Buildings)

  • Xianran Xing

    (University of Science and Technology Beijing)

Abstract

Thermal expansion properties of solids are of fundamental interest and control of thermal expansion is important for practical applications but can be difficult to achieve. Many framework-type materials show negative thermal expansion when internal cages are empty but positive thermal expansion when additional atoms or molecules fill internal voids present. Here we show that redox intercalation offers an effective method to control thermal expansion from positive to zero to negative by insertion of Li ions into the simple negative thermal expansion framework material ScF3, doped with 10% Fe to enable reduction. The small concentration of intercalated Li ions has a strong influence through steric hindrance of transverse fluoride ion vibrations, which directly controls the thermal expansion. Redox intercalation of guest ions is thus likely to be a general and effective method for controlling thermal expansion in the many known framework materials with phonon-driven negative thermal expansion.

Suggested Citation

  • Jun Chen & Qilong Gao & Andrea Sanson & Xingxing Jiang & Qingzhen Huang & Alberto Carnera & Clara Guglieri Rodriguez & Luca Olivi & Lei Wang & Lei Hu & Kun Lin & Yang Ren & Zheshuai Lin & Cong Wang & , 2017. "Tunable thermal expansion in framework materials through redox intercalation," Nature Communications, Nature, vol. 8(1), pages 1-7, April.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14441
    DOI: 10.1038/ncomms14441
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