Flavylium-containing polymeric probe as encryption ink for reversible sensing of bisulfite ions and formaldehyde.

Abstract

Prolonged absorption of sulfur dioxide (SO2) and formaldehyde (FA) inflicts severe long-term damage to human health. Here we report a fluorescent polymeric probe with flavylium pendants (CP5-FLA) for detecting bisulfite (HSO3–) and FA in an aqueous medium. The probe displays remarkable photophysical characteristics with rapid response times (30/60 s), high sensitivity (detection limit of 1.1/2.6 nM), and the capability for colorimetric and fluorimetric detection for HSO3–/FA. The sensing mechanism is based on the intramolecular charge transfer (ICT) “off-on” process in CP5-FLA tuned by the Michael/reversible Michael addition reactions between the flavyluim groups and HSO3–/FA, as confirmed by electrospray ionization mass spectrometry (ESI-MS) and time-dependent density functional theory (TD-DFT) analysis for the reaction of the model compound toward HSO3– and FA. This work presents a facile approach for developing versatile flavylium-based fluorescent probes through flexible molecular engineering, with potential applications in data encryption.