4.7 Article

A novel strategy to construct activatable silver chalcogenide quantum dots nanoprobe for NIR-II fluorescence imaging of hypochlorous acid in vivo

Journal

TALANTA
Volume 262, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.talanta.2023.124668

Keywords

Hypochlorous acid; Near-infrared II; Fluorescence imaging; Activatable nanoprobe; Quantum dots

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In this study, a novel strategy was proposed for developing an activatable silver chalcogenide QDs nanoprobe for NIR-II fluorescence imaging of hypochlorous acid (HClO) in vivo. The nanoprobe was constructed by mixing an Au-precursor solution with Ag2Te@Ag2S QDs to achieve cation exchange and release Ag ions, and then reducing the released Ag ions on the QDs surface to form an Ag shell for quenching the QDs emission. The Ag shell of QDs was oxidized and etched in the presence of HClO, resulting in the reactivation of the QDs emission. This study provides a promising tool for NIR-II imaging of HClO in vivo.
It is necessary to develop sensitive and selective probes for real-time in vivo monitoring of hypochlorous acid (HClO) which plays a significant role in physiological and pathological processes. The second near-infrared (NIRII) luminescent silver chalcogenide quantum dots (QDs) have shown great potential in developing activatable nanoprobe for HClO in terms of their outstanding imaging performance in the living organism. However, the limited strategy for the construction of activatable nanoprobes severely restricts their widespread applications. Herein, we proposed a novel strategy for developing an activatable silver chalcogenide QDs nanoprobe for NIR-II fluorescence imaging of HClO in vivo. The nanoprobe was fabricated by mixing an Au-precursor solution with Ag2Te@Ag2S QDs to allow cation exchange and release Ag ions and then reducing the released Ag ions on the QDs surface to form an Ag shell for quenching of the emission of QDs. The Ag shell of QDs was oxidized and etched in the presence of HClO, resulting in the disappearance of their quenching effect on QDs and the activation of the QDs emission. The developed nanoprobe enabled highly sensitive and selective determination of HClO and imaging of HClO in arthritis and peritonitis. This study provides a novel strategy for the construction of activatable nanoprobe based on QDs and a promising tool for NIR-II imaging of HClO in vivo.

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