We report herein a photoresponsive nanoplatform that delivers nitric oxide (NO) on demand, achieved by the covalent functionalization of graphene oxide (GO) with an amino-terminated nitric oxide (NO) photodonor (NOP1). The resulting GO-NOP1 hybrid nanomaterial is dispersible in water, is very stable in the dark and has been thoroughly characterized by SEM, TEM, AFM, XRD, FTIR and UV-Vis absorption spectroscopy. Photolysis experiments demonstrate that the photodecomposition of the NO photoreleaser integrated into the GO scaffold occurs with an efficiency similar to that observed for a free model compound, ruling out any significant quenching effect (i.e. photoinduced energy/electron transfer) and accounting for the excellent preservation of its photochemical properties upon grafting. A combination of direct amperometric detection and indirect measurements based on a fluorometric assay prove that the remote-controlled release of NO from the GO-NOP1 nanoplatform is exclusively regulated by visible light stimuli
Graphene oxide nanohybrid that photoreleases nitric oxide
S. Petralia;SORTINO, Salvatore
2016-01-01
Abstract
We report herein a photoresponsive nanoplatform that delivers nitric oxide (NO) on demand, achieved by the covalent functionalization of graphene oxide (GO) with an amino-terminated nitric oxide (NO) photodonor (NOP1). The resulting GO-NOP1 hybrid nanomaterial is dispersible in water, is very stable in the dark and has been thoroughly characterized by SEM, TEM, AFM, XRD, FTIR and UV-Vis absorption spectroscopy. Photolysis experiments demonstrate that the photodecomposition of the NO photoreleaser integrated into the GO scaffold occurs with an efficiency similar to that observed for a free model compound, ruling out any significant quenching effect (i.e. photoinduced energy/electron transfer) and accounting for the excellent preservation of its photochemical properties upon grafting. A combination of direct amperometric detection and indirect measurements based on a fluorometric assay prove that the remote-controlled release of NO from the GO-NOP1 nanoplatform is exclusively regulated by visible light stimuliFile | Dimensione | Formato | |
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