Photoinduced Proton Coupled Electron Transfer in 2‑(2′-Hydroxyphenyl)-Benzothiazole

Photoinduced Proton Coupled Electron Transfer in 2‑(2′-Hydroxyphenyl)-Benzothiazole

We characterize the structural and electronic changes during the photoinduced enol–keto tautomerization of 2-(2′-hydroxyphenyl)-benzothiazole (HBT) in a nonpolar solvent (tetrachloroethene). We quantify the redistribution of electronic charge and intramolecular proton translocation in real time by c...

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Veröffentlicht in:The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Molecules, spectroscopy, kinetics, environment, & general theory, 2013-06, Vol.117 (25), p.5269-5279
Hauptverfasser: Luber, Sandra, Adamczyk, Katrin, Nibbering, Erik T. J, Batista, Victor S
Format: Artikel
Sprache:eng
Schlagworte:
Atomic and molecular physics
Calculations and mathematical techniques in atomic and molecular physics (excluding electron correlation calculations)
Charge
Chemistry
Coupling (molecular)
Density-functional theory
Electron transfer
Electronic structure of atoms, molecules and their ions: theory
Electronics
Exact sciences and technology
General and physical chemistry
Markers
Molecular structure
Photochemistry
Physical chemistry of induced reactions (with radiations, particles and ultrasonics)
Physics
Solvents
Spectroscopy
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Zusammenfassung:We characterize the structural and electronic changes during the photoinduced enol–keto tautomerization of 2-(2′-hydroxyphenyl)-benzothiazole (HBT) in a nonpolar solvent (tetrachloroethene). We quantify the redistribution of electronic charge and intramolecular proton translocation in real time by combining UV-pump/IR-probe spectroscopy and quantum chemical modeling. We find that the photophysics of this prototypical molecule involves proton coupled electron transfer (PCET), from the hydroxyphenyl to the benzothiazole rings, resulting from excited state intramolecular proton transfer (ESIPT) coupled to electron transfer through the conjugated double bond linking the two rings. The combination of polarization-resolved mid-infrared spectroscopy of marker modes and time-dependent density functional theory (TD-DFT) provides key insights into the transient structures of the molecular chromophore during ultrafast isomerization dynamics.
ISSN:1089-5639
1520-5215
DOI:10.1021/jp403342w