Pyrene-Based Chemosensor for Picric Acid—Fundamentals to Smartphone Device Design

Abstract: Developing a fluorescent probe for the selective and sensitive detection of explosives is a topic of continuous research interest. Additionally, underlying the principles behind the detection mechanism is indeed providing substantial information about the design of an efficient fluorescence probe. In this context, a pyrene-tethered 1-(pyridin-2-yl)­imidazo­[1,5-a]­pyridine-based fluorescent probe (TL18) was developed and employed as a fluorescent chemosensor for nitro explosives. The molecular structure of TL1… Show more

“…Fluorescence spectroscopy is also widely used for environmental and biological studies due to the low detection limit, selectivity, rapid response and applicability for bioimaging [ 11 , 12 , 13 ]. Py derivatives being highly effective fluorophores are frequently used as fluorescent probes (e.g., for detection of changes in temperature [ 14 ], pressure [ 15 ], pH [ 16 ], concentration of gases [ 17 ], organic molecules [ 18 ], inorganic anions [ 19 ] and metal cations [ 20 ]). The drawback of the use of low molecular weight pyrene derivatives is that efficient interactions between chromophores occur at high concentrations.…”

Hybrid Fluorescent Poly(silsesquioxanes) with Amide- and Triazole-Containing Side Groups for Light Harvesting and Cation Sensing

“…Fluorescence spectroscopy is also widely used for environmental and biological studies due to the low detection limit, selectivity, rapid response and applicability for bioimaging [ 11 , 12 , 13 ]. Py derivatives being highly effective fluorophores are frequently used as fluorescent probes (e.g., for detection of changes in temperature [ 14 ], pressure [ 15 ], pH [ 16 ], concentration of gases [ 17 ], organic molecules [ 18 ], inorganic anions [ 19 ] and metal cations [ 20 ]). The drawback of the use of low molecular weight pyrene derivatives is that efficient interactions between chromophores occur at high concentrations.…”

Hybrid Fluorescent Poly(silsesquioxanes) with Amide- and Triazole-Containing Side Groups for Light Harvesting and Cation Sensing

“…Pyrene-tethered probe 41 60 (chart 6) in THF gave emission maxima at 495 nm which was gradually shifted to 515 nm with increasing amounts of DMF in THF-DMF binary mixtures and demonstrated the presence of ICT transition in probe 41. The solution of probe 41 in DMSO displayed efficient fluorescence quenching at emission maxima 530 nm with PA.…”

Protonation- and electrostatic-interaction-based fluorescence probes for the selective detection of picric acid (2,4,6-trinitrophenol) – an explosive material

“…Notably, the absorption spectrum of DMN in CHCl 3 exhibited a large bathochromic shi compared to the other solvents, which may occur due to an immediate stabilization of the molecule upon photoexcitation. 34,35 Selectivity and sensitivity…”

Rapid colorimetric discrimination of cyanide ions – mechanistic insights and applications