Journal
JOURNAL OF PHYSICAL CHEMISTRY LETTERS
Volume 13, Issue 38, Pages 8845-8850Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpclett.2c02388
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- Minnesota Supercomputing Institute
- National Science Foundation
- [CHE-2153081]
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The excited state dynamics in two fully characterized pyridoneBODIPY-fullerene complexes were investigated. Efficient energy transfer and internal conversion were observed in the presence of the fullerene, allowing the excited state energy to be transferred back to the pyridoneBODIPY chromophore. The attachment chemistry of the fullerene affected the triplet-triplet energy transfer and the relaxation rate of the final triplet state.
The excited state dynamics in two fully characterized pyridoneBODIPY-fullerene complexes were investigated using time-resolved spectroscopy. Photoexcitation was initially localized on the pyridoneBODIPY chromophore. The energy was rapidly transferred to the fullerene, which subsequently underwent ISC to form a triplet state and returned the energy to the pyridoneBODIPY via triplet-triplet energy transfer. This ping-pong energy transfer mechanism resulted in efficient (>85%) overall conversion of the excited state pyridoneBODIPY constituent despite a complete lack of ISC in the pyridoneBODIPY in the absence of the fullerene partner. The small difference in attachment chemistry for the fullerene did not impact the initial singlet energy transfer. However, the N-methylpyrrolidine bridge did slow both the triplet-triplet energy transfer and the ultimate relaxation rate of the final triplet state when compared to an isoxazole-based bridge. The rates of each step were quantified, and computational predictions were used to complement the proposed mechanism and energetics. The result demonstrated efficient triplet sensitization of a strong chromophore that lacks significant spin-orbit coupling.
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