One-pot fabrication of aluminium ion anchoring boric acid-carbon dots hybrid system and its highly selective fluorescence sensing for fluorine ion in water environment.

A highly selective and sensitive fluorescence sensor for fluorine ion from aluminium and boric acid codoped carbon dot was synthesized. [Display omitted] • Aluminium ion and boric acid codoped carbon dots was synthesized and characterized. • In the sensor, rich hydroxyl group from boric acid can anchored carbon dots and aluminium, which enhanced the water solubility and biocompatibility of sensor system. • The water soluble fluorescence sensor can detect fluorine ion in cell and zebrafish. Fluorine is one of the essential trace elements for human body, which is essential for calcification process in living organisms. In the paper, a "off–on" fluorescence sensor for fluorine ion based on aluminium ion and boric acid codoped carbon dots was synthesized and characterized. According to fluorescence analysis, the water-soluble sensor exhibited highly selective and sensitive for fluorine ion. In sensing process, F- could bind to Al3+ after the addition of fluorine ion, which resulted in the decomposition of Al-BA-CDs system, then intense yellow fluorescence signal appeared. Moreover, the fluorescence sensor exhibited low detecting limit (5.0 nanomolar level) by fluorescence titration spectrum. In addition, according to evaluate the fluorescence sensing properties of F- in HepG2 cell and zebra fish, this job greatly extended the use of F- sensor from aluminium ion and boric acid codoped carbon dots in organism. The work also provided an interesting idea for fabricating water-soluble fluorescence sensor for F-. [ABSTRACT FROM AUTHOR]