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Salt concentration and charging velocity determine ion charge storage mechanism in nanoporous supercapacitors

Author

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  • C. Prehal

    (Institute of Physics, Montanuniversitaet Leoben
    Graz University of Technology)

  • C. Koczwara

    (Institute of Physics, Montanuniversitaet Leoben)

  • H. Amenitsch

    (Graz University of Technology)

  • V. Presser

    (INM-Leibniz Institute for New Materials
    Saarland University)

  • O. Paris

    (Institute of Physics, Montanuniversitaet Leoben)

Abstract

A fundamental understanding of ion charge storage in nanoporous electrodes is essential to improve the performance of supercapacitors or devices for capacitive desalination. Here, we employ in situ X-ray transmission measurements on activated carbon supercapacitors to study ion concentration changes during electrochemical operation. Whereas counter-ion adsorption was found to dominate at small electrolyte salt concentrations and slow cycling speed, ion replacement prevails for high molar concentrations and/or fast cycling. Chronoamperometry measurements reveal two distinct time regimes of ion concentration changes. In the first regime the supercapacitor is charged, and counter- and co-ion concentration changes align with ion replacement and partially co-ion expulsion. In the second regime, the electrode charge remains constant, but the total ion concentration increases. We conclude that the initial fast charge neutralization in nanoporous supercapacitor electrodes leads to a non-equilibrium ion configuration. The subsequent, charge-neutral equilibration slowly increases the total ion concentration towards counter-ion adsorption.

Suggested Citation

  • C. Prehal & C. Koczwara & H. Amenitsch & V. Presser & O. Paris, 2018. "Salt concentration and charging velocity determine ion charge storage mechanism in nanoporous supercapacitors," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06612-4
    DOI: 10.1038/s41467-018-06612-4
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    Cited by:

    1. Pal, Bhupender & Yasin, Amina & Kaur, Rupinder & Tebyetekerwa, Mike & Zabihi, Fatemeh & Yang, Shengyuan & Yang, Chun-Chen & Sofer, Zděnek & Jose, Rajan, 2021. "Understanding electrochemical capacitors with in-situ techniques," Renewable and Sustainable Energy Reviews, Elsevier, vol. 149(C).

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