Fluorescent dialdehyde-BODIPY chitosan hydrogel and its highly sensing ability to Cu2+ ion

Fluorescent hydrogel with proper hydrophilicity and thermal stability, excellent sensitivity and high selectivity has important practical and scientific significance, especially in heavy metal ion detection. In this work, by adjusting the content of [2, 6-Bis-[4-formylthiophene]]-1,3,5,7-tetramethyl-8-phenyl-4, 4-difluoroborazaindoloene (B3), as a cross-linking agent, a series of chitosan- fluoroboron dipyrrole-chitosan-based fluorescent hydrogels (CBC) with large stokes shift were designed and prepared. The hydrogels can be used as fluorescent probes for identifying Cu2+ in aqueous solution. The linear quenching range of Cu2+ is 0-50 mu M, and the detection limit and quenching constant are 4.75 mu M and 3.52 x 10(4) M-1, respectively. Under the interaction of Cu2+, the imine bond C=N was converted to C- N bond, which causes the phenomenon of fluorescence quenching. In addition, relatively high crosslink density improves hydrophilicity and thermal stability of initial chitosan, and made the swelling ability better.

Automated summary

In this study, a series of novel fluorescent hydrogels were designed and prepared by adjusting the content of a cross-linking agent, suitable for detecting Cu2+ ions. The hydrogels exhibit excellent sensitivity and high selectivity, making them applicable for heavy metal ion detection.