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Increasing the conductivity of crystalline polymer electrolytes

Author

Listed:
  • Alasdair M. Christie

    (School of Chemistry, University of St Andrews)

  • Scott J. Lilley

    (School of Chemistry, University of St Andrews)

  • Edward Staunton

    (School of Chemistry, University of St Andrews)

  • Yuri G. Andreev

    (School of Chemistry, University of St Andrews)

  • Peter G. Bruce

    (School of Chemistry, University of St Andrews)

Abstract

Polymer electrolytes consist of salts dissolved in polymers (for example, polyethylene oxide, PEO), and represent a unique class of solid coordination compounds. They have potential applications in a diverse range of all-solid-state devices, such as rechargeable lithium batteries, flexible electrochromic displays and smart windows1,2,3,4,5. For 30 years, attention was focused on amorphous polymer electrolytes in the belief that crystalline polymer:salt complexes were insulators. This view has been overturned recently by demonstrating ionic conductivity in the crystalline complexes PEO6:LiXF6 (X = P, As, Sb); however, the conductivities were relatively low6,7. Here we demonstrate an increase of 1.5 orders of magnitude in the conductivity of these materials by replacing a small proportion of the XF6- anions in the crystal structure with isovalent N(SO2CF3)2- ions. We suggest that the larger and more irregularly shaped anions disrupt the potential around the Li+ ions, thus enhancing the ionic conductivity in a manner somewhat analogous to the AgBr1-xIx ionic conductors8. The demonstration that doping strategies can enhance the conductivity of crystalline polymer electrolytes represents a significant advance towards the technological exploitation of such materials.

Suggested Citation

  • Alasdair M. Christie & Scott J. Lilley & Edward Staunton & Yuri G. Andreev & Peter G. Bruce, 2005. "Increasing the conductivity of crystalline polymer electrolytes," Nature, Nature, vol. 433(7021), pages 50-53, January.
    • Handle: RePEc:nat:nature:v:433:y:2005:i:7021:d:10.1038_nature03186
    DOI: 10.1038/nature03186
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    Cited by:

    1. Xiao Zhan & Miao Li & Xiaolin Zhao & Yaning Wang & Sha Li & Weiwei Wang & Jiande Lin & Zi-Ang Nan & Jiawei Yan & Zhefei Sun & Haodong Liu & Fei Wang & Jiayu Wan & Jianjun Liu & Qiaobao Zhang & Li Zhan, 2024. "Self-assembled hydrated copper coordination compounds as ionic conductors for room temperature solid-state batteries," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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