Name reactions: strategies in the design of chemodosimeters for analyte detection

Abstract: Design and synthesis of suitable chemodosimeters for detection of toxic analytes has become challenging for new researchers nowadays in the molecular recognition field. Among different chemical reactions, name reaction-based approaches...

“…[48][49][50][51][52][53][54][55][56][57][58] As a result, innovative analytical devices that are environmentally sustainable, cost-effective, selective, and sensitive are required. Hence, colorimetric and fluorogenic chemosensors/chemodosimeters, i.e., reaction based chemosensors, [59][60][61][62][63][64][65] from the spectral field are more reliable and simpler for tin ion detection than other methods due to their relatively low cost, ease, responsiveness, dependability, rapidity and specificity. These sensing methods [66][67][68][69] are highly useful for monitoring tin in a variety of biological and environmental samples (such as waste water, air, and residues).…”

Recent advances in tin ion detection using fluorometric and colorimetric chemosensors

“…[48][49][50][51][52][53][54][55][56][57][58] As a result, innovative analytical devices that are environmentally sustainable, cost-effective, selective, and sensitive are required. Hence, colorimetric and fluorogenic chemosensors/chemodosimeters, i.e., reaction based chemosensors, [59][60][61][62][63][64][65] from the spectral field are more reliable and simpler for tin ion detection than other methods due to their relatively low cost, ease, responsiveness, dependability, rapidity and specificity. These sensing methods [66][67][68][69] are highly useful for monitoring tin in a variety of biological and environmental samples (such as waste water, air, and residues).…”

Recent advances in tin ion detection using fluorometric and colorimetric chemosensors

Ratiometric orange fluorescent and colorimetric highly sensitive imidazolium-bearing naphthoquinolinedione-based probes for CN− sensing in aqueous solutions and bio-samples