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Unexpectedly efficient ion desorption of graphene-based materials

Author

Listed:
  • Xinming Xia

    (Ningbo University
    Zhejiang A&F University
    Yangzhou University)

  • Feng Zhou

    (Key Laboratory of Radiation Monitoring of Zhejiang Province)

  • Jing Xu

    (Zhejiang A&F University)

  • Zhongteng Wang

    (Zhejiang A&F University)

  • Jian Lan

    (Zhejiang A&F University)

  • Yan Fan

    (Zhejiang A&F University)

  • Zhikun Wang

    (Zhejiang A&F University)

  • Wei Liu

    (Zhejiang A&F University)

  • Junlang Chen

    (Zhejiang A&F University)

  • Shangshen Feng

    (Zhejiang A&F University)

  • Yusong Tu

    (Yangzhou University)

  • Yizhou Yang

    (East China University of Science and Technology)

  • Liang Chen

    (Ningbo University)

  • Haiping Fang

    (East China University of Science and Technology
    University of Chinese Academy of Sciences)

Abstract

Ion desorption is extremely challenging for adsorbents with superior performance, and widely used conventional desorption methods involve high acid or base concentrations and large consumption of reagents. Here, we experimentally demonstrate the rapid and efficient desorption of ions on magnetite-graphene oxide (M-GO) by adding low amounts of Al3+. The corresponding concentration of Al3+ used is reduced by at least a factor 250 compared to conventional desorption method. The desorption rate reaches ~97.0% for the typical radioactive and bivalent ions Co2+, Mn2+, and Sr2+ within ~1 min. We achieve effective enrichment of radioactive 60Co and reduce the volume of concentrated 60Co solution by approximately 10 times compared to the initial solution. The M-GO can be recycled and reused easily without compromising its adsorption efficiency and magnetic performance, based on the unique hydration anionic species of Al3+ under alkaline conditions. Density functional theory calculations show that the interaction of graphene with Al3+ is stronger than with divalent ions, and that the adsorption probability of Al3+ is superior than that of Co2+, Mn2+, and Sr2+ ions. This suggests that the proposed method could be used to enrich a wider range of ions in the fields of energy, biology, environmental technology, and materials science.

Suggested Citation

  • Xinming Xia & Feng Zhou & Jing Xu & Zhongteng Wang & Jian Lan & Yan Fan & Zhikun Wang & Wei Liu & Junlang Chen & Shangshen Feng & Yusong Tu & Yizhou Yang & Liang Chen & Haiping Fang, 2022. "Unexpectedly efficient ion desorption of graphene-based materials," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-35077-9
    DOI: 10.1038/s41467-022-35077-9
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    References listed on IDEAS

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