Archivio Istituzionale della RicercaWe report 1.6 ± 1 μm exciton transport in self-assembled supramolecular light-harvesting nanotubes (LHNs) assembled from amphiphillic cyanine dyes. We stabilize LHNs in a sucrose glass matrix, greatly reducing light and oxidative damage and allowing the observation of exciton–exciton annihilation signatures under weak excitation flux. Fitting to a one-dimensional diffusion model, we find an average exciton diffusion constant of 55 ± 20 cm2/s, among the highest measured for an organic system. We develop a simple model that uses cryogenic measurements of static and dynamic energetic disorder to estimate a diffusion constant of 32 cm2/s, in agreement with experiment. We ascribe large exciton diffusion lengths to low static and dynamic energetic disorder in LHNs. We argue that matrix-stabilized LHNS represent an excellent model system to study coherent excitonic transport.
Room-Temperature Micron-Scale Exciton Migration in a Stabilized Emissive Molecular Aggregate / Caram, Justin R.; Doria, Sandra; Eisele, Dörthe M.; Freyria, Francesca S.; Sinclair, Timothy S.; Rebentrost, Patrick; Lloyd, Seth; Bawendi, Moungi G.. - In: NANO LETTERS. - ISSN 1530-6984. - 16:11(2016), pp. 6808-6815. [10.1021/acs.nanolett.6b02529]
Room-Temperature Micron-Scale Exciton Migration in a Stabilized Emissive Molecular Aggregate
Freyria, Francesca S.;
2016
Abstract
We report 1.6 ± 1 μm exciton transport in self-assembled supramolecular light-harvesting nanotubes (LHNs) assembled from amphiphillic cyanine dyes. We stabilize LHNs in a sucrose glass matrix, greatly reducing light and oxidative damage and allowing the observation of exciton–exciton annihilation signatures under weak excitation flux. Fitting to a one-dimensional diffusion model, we find an average exciton diffusion constant of 55 ± 20 cm2/s, among the highest measured for an organic system. We develop a simple model that uses cryogenic measurements of static and dynamic energetic disorder to estimate a diffusion constant of 32 cm2/s, in agreement with experiment. We ascribe large exciton diffusion lengths to low static and dynamic energetic disorder in LHNs. We argue that matrix-stabilized LHNS represent an excellent model system to study coherent excitonic transport.
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https://hdl.handle.net/11583/2995633