A novel BODIPY-based fluorescent probe for sensitive and selective detection of nerve agent simulants through base-assisted photo-induced electron transfer process

“…109 Probe 80 was designed using hydroxyphenyl-benzothiazole as the fluorophore and an oxime as the recognition site. 110 This probe exhibited a 30-fold fluorescence enhancement at 590 nm, a low LOD (34 nM), and a rapid response (t 1/2 = 175 s) (Fig. 14).…”

“…More recently, Li et al developed the BODIPY probe, SO-BOD ( 81 ), for the detection of DECP, which employed a β-hydroxy oxime as the recognition unit. 110 This probe exhibited a 30-fold fluorescence enhancement at 590 nm, a low LOD (34 nM), and a rapid response ( t 1/2 = 175 s) (Fig. 14).…”

Fluorescent probes for the detection of chemical warfare agents

“…109 Probe 80 was designed using hydroxyphenyl-benzothiazole as the fluorophore and an oxime as the recognition site. 110 This probe exhibited a 30-fold fluorescence enhancement at 590 nm, a low LOD (34 nM), and a rapid response (t 1/2 = 175 s) (Fig. 14).…”

“…More recently, Li et al developed the BODIPY probe, SO-BOD ( 81 ), for the detection of DECP, which employed a β-hydroxy oxime as the recognition unit. 110 This probe exhibited a 30-fold fluorescence enhancement at 590 nm, a low LOD (34 nM), and a rapid response ( t 1/2 = 175 s) (Fig. 14).…”

Fluorescent probes for the detection of chemical warfare agents

“…34). 181 57 in acetonitrile solution was initially treated with the base triethylamine (NEt 3 ), which led to a decrease in the fluorescence emission intensity at 520 nm. Subsequent phosphorylation of the phenol unit through treatment with DCNP resulted in a significant fluorescence enhancement at 560 nm.…”

Recent advances in fluorescent and colorimetric chemosensors for the detection of chemical warfare agents: a legacy of the 21st century

“…The species and reactivity of functional groups in reactive polymers play a critical role, which always make polymers become stoichiometric reagents in the detoxification of CWAs. − Therefore, the activity of reactive groups is very critical for the degradation rate of CWAs as functional groups would be consumed gradually during the stoichiometric reaction. , Most of the past research in the design and synthesis of reactive polymers always focused on modifying surface nucleophilic groups in polymers, such as aminopyridine and oxime, to hydrolyze nerve agents and their simulants (i.e., Sarin, Soman, and VX). − Sulfur mustard (HD, 2-bis­(2-chloroethyl) sulfide) is a vesicant agent that can cause severe blistering on the skin or injure the eyes. Therefore, the self-decontamination function is more essential for clothing materials against HD. − Unfortunately, the hydrolysis of HD is severely limited by its relatively low solubility and the generation of thiodiglycol (TDG), bringing more challenges for the targeted reactive polymer design. − Until now, catalytic oxidation by decontamination agents has become a promising method for the self-detoxification of HD in practical applications. − N-halamine-modified commercial polymers have been proved to be capable of decontaminating 2-chloroethyl ethyl sulfide (2-CEES, HD simulant), but the efficiency needs to be improved because researchers have focused more on protection performance. , Meanwhile, the detoxification efficiency of CEES was affected dramatically by the relative humidity, which could limit the activity for HD decontamination in all-solid state.…”

Decontamination of Mustard Gas with Processable Dry Reactive Polymers via Oxidation–Chlorination