Medium viscosity effect on the fluorescent properties of arrays consisting of two BODIPY chromophores axially bound to a Sn(IV)porphyrin via a phenolate bridge

Abstract

The arrays consisting of two BODIPY chromophores axially bound to a Sn(IV)Porphyrin via a phenolate bridge have been synthesized and characterized. Photophysical properties of obtained systems have been investigated in aqua medium with different viscosity due to the addition of glycerin. The fluorescence quantum yield of the triad upon excitation at different wavelengths, as well as its lifetime and singlet oxygen generation quantum yield in an excited state, has been determined. It has been shown that if in the triad composition the fluorescent properties of the BODIPY fragment are weakened in all studied media, then the fluorescent properties of the porphyrin fragment depend on the properties of the medium. Quenching of the BODIPY fluorescence and the porphyrin fluorescence enhancement in viscous media or increasing of the triad’s ability to generate singlet oxygen in water is the result of photo-induced electron transfer from the phenolate to the porphyrin fragment. The efficiency of electron transfer and, consequently, the efficiency of quenching depend on the conformational mobility of the ligandin the triad, i.e. on the relative position of the phenolic and indacene fragments, which gives the designed triad the properties of a fluorescent molecular rotor. The best efficiency of the triad as a fluorescence molecular rotor has been obtained in the low viscosity range from 1 to 4 cP.