Fluorescence and Time-Resolved Delayed Luminescence of Porphyrins in Organic Solvents and Polymer Matrices |
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Authors: | Danuta Wróbel Izabela Hanyż Renata Bartkowiak Rodica M. Ion |
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Affiliation: | (1) Molecular Physics Department, Institute of Physics, Pozna, University of Technology, Piotrowo 3, 60-965 Pozna, Poland;(2) ZECASIN S.A., Photochemistry Department, Splainl Independentei 202, Bucharest, Romania |
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Abstract: | Porphyrin dyes fulfill an essential function in photosynthesis and are important in photodynamic therapy and in a range of electronic devices. Their spectroscopic characteristics may play a crucial role in these processes. The spectral properties of two porphyrin dyes: tetraphenylporphyrin and tetraphenysulfporphyrin in organic solvents (acetone, chloroform, methyl alcohol, and dimethyl-sulfoxide) and in polyvinyl alcohol and poly(methylmethacrylate) films have been investigated. Absorption, fluorescence, and microsecond time-resolved delayed luminescence spectra have been measured at room temperature. The existence of different aggregated dye forms in the ground and excited states has been demonstrated. The manifold of dye species depends on the solvent/polymer. In the case of the polymers, it also depends on the solvent used to coat the polymer film. Delayed luminescence spectra and decay times of the two porphyrins in the different solutions and in polymeric matrices suggest that different mechanisms of deexcitation of the singlet excited states may be responsible for their generation in these and other porphyrin dyes. |
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Keywords: | Absorption organic solvent polymer matrix porphyrin fluorescence time-resolved delayed luminescence |
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