A novel fluorescent probe for ClO−is developed by the combination of a new ClO−responsive unit and the aggregation induced-emission feature of tetraphenylethylene.
A novel AIE-active boron difluoride fluorescent probe P3T was designed and synthesized. P3T exhibited high sensitivity to intra- and extra-cellular pH changes. Furthermore, a Förster resonance energy transfer (FRET) system was constructed.
A turn-on fluorescent probe was developed for the sensitive and selective sensing of Hg2+ based on an aggregation-induced emission fluorescent molecule
Biocompatible and water dispersible fluorescent polymeric nanoparticles with an aggregation-induced emission feature were fabricated through a facile “one-pot” Mannich reaction and utilized for biological imaging applications.