We report a strategy for the realization of NMR chemosensors based on the spontaneous self-assembly of lower rim pyridinium-functionalized tetraphopshonate cavitands on commercial silica nanoparticles. These nanohybrids enable the selective detection of physiologically relevant N-methylated amines, with a limit of detection of 31 mu M, via STD-based NMR experiments, achieving for the first time fine structural selectivity in nanoparticle-assisted NMR chemosensing.
Selective NMR detection of N-methylated amines using cavitand-decorated silica nanoparticles as receptors
Cesari, AndreaInvestigation
;Rosa-Gastaldo, DanieleInvestigation
;Rastrelli, FedericoConceptualization
;Dalcanale, EnricoSupervision
;Mancin, Fabrizio
Supervision
2022
Abstract
We report a strategy for the realization of NMR chemosensors based on the spontaneous self-assembly of lower rim pyridinium-functionalized tetraphopshonate cavitands on commercial silica nanoparticles. These nanohybrids enable the selective detection of physiologically relevant N-methylated amines, with a limit of detection of 31 mu M, via STD-based NMR experiments, achieving for the first time fine structural selectivity in nanoparticle-assisted NMR chemosensing.
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