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High-energy-density dual-ion battery for stationary storage of electricity using concentrated potassium fluorosulfonylimide

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  • Kostiantyn V. Kravchyk

    (ETH Zürich
    Empa—Swiss Federal Laboratories for Materials Science and Technology)

  • Preeti Bhauriyal

    (Indian Institute of Technology (IIT) Indore)

  • Laura Piveteau

    (ETH Zürich
    Empa—Swiss Federal Laboratories for Materials Science and Technology)

  • Christoph P. Guntlin

    (ETH Zürich
    Empa—Swiss Federal Laboratories for Materials Science and Technology)

  • Biswarup Pathak

    (Indian Institute of Technology (IIT) Indore)

  • Maksym V. Kovalenko

    (ETH Zürich
    Empa—Swiss Federal Laboratories for Materials Science and Technology)

Abstract

Graphite dual-ion batteries represent a potential battery concept for large-scale stationary storage of electricity, especially when constructed free of lithium and other chemical elements with limited natural reserves. Owing to their non-rocking-chair operation mechanism, however, the practical deployment of graphite dual-ion batteries is inherently limited by the need for large quantities of electrolyte solutions as reservoirs of all ions that are needed for complete charge and discharge of the electrodes. Thus far, lithium-free graphite dual-ion batteries have employed moderately concentrated electrolyte solutions (0.3–1 M), resulting in rather low cell-level energy densities of 20–70 Wh kg−1. In this work, we present a lithium-free graphite dual-ion battery utilizing a highly concentrated electrolyte solution of 5 M potassium bis(fluorosulfonyl)imide in alkyl carbonates. The resultant battery offers an energy density of 207 Wh kg−1, along with a high energy efficiency of 89% and an average discharge voltage of 4.7 V.

Suggested Citation

  • Kostiantyn V. Kravchyk & Preeti Bhauriyal & Laura Piveteau & Christoph P. Guntlin & Biswarup Pathak & Maksym V. Kovalenko, 2018. "High-energy-density dual-ion battery for stationary storage of electricity using concentrated potassium fluorosulfonylimide," Nature Communications, Nature, vol. 9(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06923-6
    DOI: 10.1038/s41467-018-06923-6
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    Cited by:

    1. Hamdani, I.R. & Bhaskarwar, A.N., 2021. "Recent progress in material selection and device designs for photoelectrochemical water-splitting," Renewable and Sustainable Energy Reviews, Elsevier, vol. 138(C).

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