This work follows an earlier one where some sydnone derivatives, interesting for their biological and biomedical applications, were synthesized and the effect of substituents on their photoreactivity was studied in irradiation conditions of high intensity and high substrate concentrations. The aim of the present work is to investigate the deactivation pathways of the excited states of three of these compounds, bearing a stilbene moiety, and to determine the quantum yield of the competitive fluorescence/photoreactions in soft irradiation conditions. Flash photolysis measurements with nanosecond resolution were also carried out to obtain information on the transient intermediates responsible for the photoproducts found in the previous work. The oxygen effect on the photoproducts and the energy transfer from triplet donors were also investigated. The experimental results, supported by quantum chemical calculations, showed that different substituents at the sydnone ring can drive the photoreactivity towards different products, thus confirming the results of the previous work. In particular, phenyl-substitution favours the formation of benzodiazepine derivatives.

Spectral properties and photo reactivity of sydnonyl-stilbenes

Mazzucato, U.;Pannacci, D.;Spalletti, A.
2018

Abstract

This work follows an earlier one where some sydnone derivatives, interesting for their biological and biomedical applications, were synthesized and the effect of substituents on their photoreactivity was studied in irradiation conditions of high intensity and high substrate concentrations. The aim of the present work is to investigate the deactivation pathways of the excited states of three of these compounds, bearing a stilbene moiety, and to determine the quantum yield of the competitive fluorescence/photoreactions in soft irradiation conditions. Flash photolysis measurements with nanosecond resolution were also carried out to obtain information on the transient intermediates responsible for the photoproducts found in the previous work. The oxygen effect on the photoproducts and the energy transfer from triplet donors were also investigated. The experimental results, supported by quantum chemical calculations, showed that different substituents at the sydnone ring can drive the photoreactivity towards different products, thus confirming the results of the previous work. In particular, phenyl-substitution favours the formation of benzodiazepine derivatives.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/1544096
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