Photosensitized Generation of Singlet Oxygen from Vinyl Linked Benzo-Crown-Ether-Bipyridyl Ruthenium(II) Complexes

Abstract

Photophysical properties of 10 substituted methoxybenzene or vinyl linked benzo-crown-ether-2,2′-bipyridyl ruthenium(II) complexes are reported. The lifetimes of the excited triplet metal to ligand charge transfer states,3MLCT, of the complex ions are in the range 0.85 ± 0.12 μs with two exceptions where the lifetime drops to about half this value. The rate constants, kq, for quenching in acetonitrile of the3MLCT states of these ruthenium complex ions by molecular oxygen, O2(3∑g-), and the variations in the efficiency, fΔT, with which excited singlet oxygen, O2*(1Δg), is thereby produced are reported. The quenching rate constants are in the range 2.2-4.2 × 109dm3mol-1s-1, and efficiencies of singlet oxygen production are in the range 0.21-0.74. Those complexes with the highest values of kqtend to be those with lowest fΔTvalues; that is, kqand fΔTshow a reasonable inverse correlation. The product kqfΔTgives the rate constant for oxygen quenching with energy transfer to oxygen, kq1, and kq- kq1gives the rate constant, kq3, for oxygen quenching by any path which does not lead to energy transfer. The values of kq1, kq3, and kqare compared with those in the literature which are mainly available for organic sensitizers of singlet oxygen. The similarities and differences between these two classes of compounds are discussed taking into account the fact that ruthenium complex ions are likely to show enhanced intersystem crossing, due to the heavy atom effect and the likely dependence of kq1and kq3, and thereby the efficiencies of singlet oxygen production, on the energies of the excited3MLCT states and on steric factors.