AIE-based fluorescent sensors for low concentration toxic ion detection in water

TL;DR: In this article , the advances in fluorescent Schiff base sensors for metal ion detection with a focus on the strategies, mechanistic insights, and applications are discussed, and a review is presented.

TL;DR: Recent advances in the development of AIE-based chemosensors for a full spectrum of cations including s, p, d and f-block cations are reviewed.

TL;DR: A broad scope of fluorescent materials, for example, supramolecular systems, polymeric chemosensors, small molecules, metal-organic frameworks (MOFs), and aggregation-induced emissive materials, and their associated mechanisms and applications are presented in a table format as discussed by the authors.

TL;DR: In this paper , the authors present a review of Schiff base compounds with aggregation-induced emission (AIE) characteristics working as fluorescence sensors, which solves the problem of the fluorescence of traditional fluorescent molecules becoming weak or quenched in high concentration or aggregated state conditions.

TL;DR: Fluorescent PVBTI and HPVBTI with D-π–A structure were synthesized and could sensitively and selectively sense bisulfite in phosphate-buffered saline solution via a Michael-additio...

TL;DR: A novel chemosensor for the detection of water-soluble Cu2+ and Ni2+ species with different mechanisms, and low detection limits of 2.1 nM for Cu2+.

TL;DR: A sequential on-off-on switch for Ag+ and SCN- with high selectivity and sensitivity is achieved on the basis of phenanthro[9,10-d]imidazole derivative (DIPIP) which can exhibit the aggregation-induced emission properties in aqueous solution.

TL;DR: An intriguing time dependent morphological transition from nanospheres to ordered nanorods and subsequent emission changes in AIEE active azo-phenol BODIPYs have been successfully realized by time dependent fluorescence, scanning electron (SEM), transmission electron (TEM) and fluorescence optical microscopy (FOM) studies.