Radiationless intermolecular energy transfer with participation of acceptor excited triplet states |
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Authors: | GP Gurinovich EI Zenkevich EI Sagun |
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Institution: | Institute of Physics, Academy of Sciences of the Byelorussian SSR, Minsk, BSSR/ USSR |
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Abstract: | Radiationless energy transfer between like and unlike molecules has been experimentally studied under conditions where acceptor molecules have been excited to the triplet state Homogeneous singlet-triplet-triplet migration has been discovered in highlyconcentrated chlorophyll “a” and pheophytin “a” solutions in castor oil at 183 K by measuring the variation of pigment relative quantum yields of fluorescence and triplet state formation as a function of exciting pulse intensity. Heterogeneous single-triplet-triplet energy transfer has been observed in solid solutions of different complex organic molecules (perylene + phenanthrene, Na-fluorescein+chlorophyll “a”, pyrene+Mg-phthalocyanine) as the fluorescent donor state quenching in the presence of acceptor triplet-excited molecules. Primary emphasis is placed on a direct observation of the effect of energy transfer on the excited-state lifetime of the donor. The benzophenone phosphorescence quenching (shortening of phosphorescence lifetime) in the presence of Mg-mesoporphyrin triplet molecules has been found to be caused by the heterogeneous triplet-triplet-triplet energy transfer. Good agreement of the theoretical and experimental results permits us to conclude that all types of observed transfer processes are described by the Förster-Galanin theory for dipole-dipole radiationless energy transfer with no additional assumptions. |
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