The efficiency of the upconversion-induced delayed fluorescence in a solution of multicomponent organic systems is limited by two steps of the overall process: (i) a triplet-triplet energy transfer between a phosphorescent donor and an emitting acceptor, and (ii) a bimolecular acceptor triplet-triplet annihilation generating acceptor singlet excited states from which the high-energy emission takes place. In this work, the energy transfer process has been investigated in a model system constituted by solutions of Pt(II)octaethylporphyrin, which acts as a donor, and 9,10 diphenylanthracene, which acts as an acceptor. At low temperature, the experimental data have been interpreted in the frame of a pure Dexter energy transfer by using the Perrin approximation. A Dexter radius as large as 26.5 A has been found. At room temperature, the fast diffusion of the molecules in the solution is no longer negligible, which gives rise to a strong increase in the energy transfer rates.

Monguzzi, A., Tubino, R., Meinardi, F. (2008). Upconversion-induced delayed fluorescence in multicomponent organic systems: Role of Dexter energy transfer. PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, 77(15), 155122 [10.1103/PhysRevB.77.155122].

Upconversion-induced delayed fluorescence in multicomponent organic systems: Role of Dexter energy transfer

MONGUZZI, ANGELO MARIA;TUBINO, RICCARDO;MEINARDI, FRANCESCO
2008

Abstract

The efficiency of the upconversion-induced delayed fluorescence in a solution of multicomponent organic systems is limited by two steps of the overall process: (i) a triplet-triplet energy transfer between a phosphorescent donor and an emitting acceptor, and (ii) a bimolecular acceptor triplet-triplet annihilation generating acceptor singlet excited states from which the high-energy emission takes place. In this work, the energy transfer process has been investigated in a model system constituted by solutions of Pt(II)octaethylporphyrin, which acts as a donor, and 9,10 diphenylanthracene, which acts as an acceptor. At low temperature, the experimental data have been interpreted in the frame of a pure Dexter energy transfer by using the Perrin approximation. A Dexter radius as large as 26.5 A has been found. At room temperature, the fast diffusion of the molecules in the solution is no longer negligible, which gives rise to a strong increase in the energy transfer rates.
Articolo in rivista - Articolo scientifico
Up-conversion, energy transfer, photoluminescence
English
apr-2008
77
15
155122
155122
none
Monguzzi, A., Tubino, R., Meinardi, F. (2008). Upconversion-induced delayed fluorescence in multicomponent organic systems: Role of Dexter energy transfer. PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, 77(15), 155122 [10.1103/PhysRevB.77.155122].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/2173
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