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Ultrasensitive optical detection of strontium ions by specific nanosensor with ultrahigh binding affinity

Xinfeng Du, Hua Xie, Tianyi Qin, Yihui Yuan () and Ning Wang ()
Additional contact information
Xinfeng Du: Hainan University
Hua Xie: Hainan University
Tianyi Qin: One Health Institute, Hainan University
Yihui Yuan: Hainan University
Ning Wang: Hainan University

Nature Communications, 2024, vol. 15, issue 1, 1-8

Abstract: Abstract The release and escape of radioactive materials has posed tremendous threats to the global environment. Among various radioactive elements, 90Sr has attracted growing attention due to its long half-life and its tendency to accumulate in bone tissue. Nonetheless, the concentration of 90Sr in radioactive waste is exceedingly low, far below the detection limits of currently available strontium-targeting chemical sensors. Herein, we propose an optical nanosensor (Sr2+-nanosensor) that exhibits an ultra-low detection limit of 0.5 nM, surpassing the 90Sr in the treated radioactive water from the Fukushima. The sensor offers wide sensing range of eight orders of magnitude, rapid response of less than 10 s, and high selectivity against 31 common ions. These excellent performances are attributed to a specific ligand (Sr2+-ligand) for Sr2+ recognition. The Sr2+ is found to be bound by six oxygen atoms from the Sr2+-ligand with a stability constant at least two orders higher than that of other traditional ligands. This study offers invaluable insights for the design of Sr2+-sensing methodologies as well as a technique for detecting trace amounts of environmental radioactive pollution.

Date: 2024
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DOI: 10.1038/s41467-024-50895-9

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