1. Bimolecular photoinduced electron transfer in non-polar solvents beyond the diffusion limit.
- Author
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Nançoz, Christoph, Rumble, Christopher, Rosspeintner, Arnulf, and Vauthey, Eric
- Subjects
- *
DIFFUSION , *SOLVENTS , *CHARGE exchange , *EXCITED states , *EXCIMERS - Abstract
Electron transfer (ET) quenching dynamics in non-polar solvents are investigated using ultrafast spectroscopy with a series of six fluorophore/quencher pairs, covering a driving force range of more than 1.3 eV. The intrinsic ET rate constants, k0, deduced from the quenching dynamics in the static regime, are of the order of 1012–1013 M−1 s−1, i.e., at least as large as in acetonitrile, and do not exhibit any marked dependence on the driving force. A combination of transient electronic and vibrational absorption spectroscopy measurements reveals that the primary product of static quenching is a strongly coupled exciplex that decays within a few picoseconds. More weakly coupled exciplexes with a longer lifetime are generated subsequently, during the dynamic, diffusion-controlled, stage of the quenching. The results suggest that static ET quenching in non-polar solvents should be viewed as an internal conversion from a locally excited state to a charge-transfer state of a supermolecule rather than as a non-adiabatic ET process. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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