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Ultrasensitive and highly selective detection of strontium ions

Author

Listed:
  • Lijuan Feng

    (Hainan University)

  • Hui Wang

    (Hainan University)

  • Tingting Liu

    (Hainan University)

  • Tiantian Feng

    (Hainan University)

  • Meng Cao

    (Hainan University)

  • Jiacheng Zhang

    (Hainan University)

  • Tao Liu

    (Hainan University)

  • Zhanhu Guo

    (Northumbria University)

  • Costas Galiotis

    (University of Patras)

  • Yihui Yuan

    (Hainan University)

  • Ning Wang

    (Hainan University)

Abstract

Strontium-90 is one of the most frequently released radioactive products in waste discharged from nuclear reactors. With a long half-life and chemical similarity to calcium, this radioisotope takes hundreds of years to decay to negligible levels and can accumulate in the food chain and bones, resulting in serious health hazards. As a result, there is growing interest in its fate and dispersion in the environment. However, the identification of 90Sr remains a challenge due to the absence of characteristic energy rays signifying its presence. Here we show a biosensor that enables the detection of Sr2+ ions in an ultrasensitive and highly selective manner. Our approach takes advantage of a fluorogenic dye, thioflavin T, which triggers the folding of DNA to form guanine-quadruplex structures. Owing to the high binding affinity of this DNA structure, on exposure to a trace amount of Sr2+ ions, thioflavin T is readily replaced, leading to attenuation of the fluorescence intensity and a detection limit of 2.11 nM. Our work could contribute to the sustainability of nuclear power by providing a technological solution to monitor the transportation of radioactive strontium pollution in the environment, a notable advance, especially after the recent Fukushima nuclear incident.

Suggested Citation

  • Lijuan Feng & Hui Wang & Tingting Liu & Tiantian Feng & Meng Cao & Jiacheng Zhang & Tao Liu & Zhanhu Guo & Costas Galiotis & Yihui Yuan & Ning Wang, 2023. "Ultrasensitive and highly selective detection of strontium ions," Nature Sustainability, Nature, vol. 6(7), pages 789-796, July.
  • Handle: RePEc:nat:natsus:v:6:y:2023:i:7:d:10.1038_s41893-023-01095-8
    DOI: 10.1038/s41893-023-01095-8
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    Cited by:

    1. Xinfeng Du & Hua Xie & Tianyi Qin & Yihui Yuan & Ning Wang, 2024. "Ultrasensitive optical detection of strontium ions by specific nanosensor with ultrahigh binding affinity," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    2. Hai-Yan Sun & Zhi-Hua Chen & Bing Hu & Jun-Hao Tang & Lu Yang & Yan-Ling Guo & Yue-Xin Yao & Mei-Ling Feng & Xiao-Ying Huang, 2024. "Boosting selective Cs+ uptake through the modulation of stacking modes in layered niobate-based perovskites," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    3. Yi-Xin Liu & Ping-Xin Wu & Jing-Yi Dai & Ping-Wei Cai & Cai Sun & Shou-Tian Zheng, 2024. "Site differentiation strategy for selective strontium uptake and elution within an all-inorganic polyoxoniobate framework," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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