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W4386100470 abstract "The antenna complex of green sulfur bacteria, the chlorosome, is one of the most efficient supramolecular systems for efficient long-range exciton transfer in nature. Femtosecond transient absorption experiments provide new insight into how vibrationally induced quantum overlap between exciton states supports highly efficient long-range exciton transfer in the chlorosome of Chlorobium tepidum. Our work shows that excitation energy is delocalized over the chlorosome in <1 ps at room temperature. The following exciton transfer to the baseplate occurs in ∼3 to 5 ps, in line with earlier work also performed at room temperature, but significantly faster than at the cryogenic temperatures used in previous studies. This difference can be attributed to the increased vibrational motion at room temperature. We observe a so far unknown impact of the excitation photon energy on the efficiency of this process. This dependency can be assigned to distinct optical domains due to structural disorder, combined with an exciton trapping channel competing with exciton transfer toward the baseplate. An oscillatory transient signal damped in <1 ps has the highest intensity in the case of the most efficient exciton transfer to the baseplate. These results agree well with an earlier computational finding of exciton transfer driven by low-frequency rotational motion of molecules in the chlorosome. Such an exciton transfer process belongs to the quantum coherent regime, for which the Förster theory for intermolecular exciton transfer does not apply. Our work hence strongly indicates that structural flexibility is important for efficient long-range exciton transfer in chlorosomes." @default.
W4386100470 created "2023-08-24" @default.
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W4386100470 date "2023-08-23" @default.
W4386100470 modified "2023-09-27" @default.
W4386100470 title "Photon Energy-Dependent Ultrafast Exciton Transfer in Chlorosomes of <i>Chlorobium tepidum</i> and the Role of Supramolecular Dynamics" @default.
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W4386100470 doi "https://doi.org/10.1021/acs.jpcb.3c05282" @default.
W4386100470 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37611240" @default.
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