Exciton Correlations in Intramolecular Singlet Fission

We have synthesized a series of asymmetric pentacene–tetracene heterodimers with a variable-length conjugated bridge that undergo fast and efficient intramolecular singlet fission (iSF). These compounds have distinct singlet and triplet energies, which allow us to study the spatial dynamics of excit...

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Veröffentlicht in:Journal of the American Chemical Society 2016-06, Vol.138 (23), p.7289-7297
Hauptverfasser: Sanders, Samuel N, Kumarasamy, Elango, Pun, Andrew B, Appavoo, Kannatassen, Steigerwald, Michael L, Campos, Luis M, Sfeir, Matthew Y
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Sprache:eng
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Zusammenfassung:We have synthesized a series of asymmetric pentacene–tetracene heterodimers with a variable-length conjugated bridge that undergo fast and efficient intramolecular singlet fission (iSF). These compounds have distinct singlet and triplet energies, which allow us to study the spatial dynamics of excitons during the iSF process, including the significant role of exciton correlations in promoting triplet pair generation and recombination. We demonstrate that the primary photoexcitations in conjugated dimers are delocalized singlets that enable fast and efficient iSF. However, in these asymmetric dimers, the singlet becomes more localized on the lower energy unit as the length of the bridge is increased, slowing down iSF relative to analogous symmetric dimers. We resolve the recombination kinetics of the inequivalent triplets produced via iSF, and find that they primarily decay via concerted processes. By identifying different decay channels, including delayed fluorescence via triplet–triplet annihilation, we can separate transient species corresponding to both correlated triplet pairs and uncorrelated triplets. Recombination of the triplet pair proceeds rapidly despite our experimental and theoretical demonstration that individual triplets are highly localized and unable to be transported across the conjugated linker. In this class of compounds, the rate of formation and yield of uncorrelated triplets increases with bridge length. Overall, these constrained, asymmetric systems provide a unique platform to isolate and study transient species essential for singlet fission, which are otherwise difficult to observe in symmetric dimers or condensed phases.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.6b00657