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Photochemical ring-opening and intramolecular hydrogen shift reactions in sulfur analogues of a-pyrone
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Abstract(s)
A combined matrix isolation FTIR and theoretical DFT(B3LYP)/6-311++G(d,p) study of the photochemistry of sulfur analogues of R-pyrone [2H-thiopyran-2-one (TP) and 2H-pyran-2-thione (PT)] was carried out. The vibrational spectra of monomers of the compounds isolated in low-temperature argon matrixes were studied experimentally and assigned completely on the basis of theoretical calculations. UV irradiation (ì >
337 nm) of the studied compounds isolated in low-temperature matrixes results mainly in the ring-opening reaction by means of the cleavage of the R-bond. Other photoprocesses, not involving the R-bond-cleavage step (such as generation of Dewar valence isomer), correspond to the minor reaction channels in both studied compounds. The ring-opening photoreaction in PT represents the first reported case of an R-bond cleavage in a compound with a CdS group attached to a six-membered ring, in which the internal strain practically does not exist, whereas the corresponding reaction in TP (a cleavage of a C-S bond in the R position with respect to a carbonyl group) is now reported for the first time. Following the ring-opening reactions,
isomerization processes and intramolecular hydrogen shift reactions were observed, enabling production of TP from PT and vice versa. A detailed study of such processes was undertaken, and kinetical and mechanistical data are presented and discussed.
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Citation
Breda, S.; Reva, I.; Lapinski, L.; Cristiano, M. L. S.; Frija, L.; Fausto, R. Photochemical Ring-Opening and Intramolecular Hydrogen Shift Reactions in Sulfur Analogues of a-Pyrone, The Journal of Physical Chemistry A, 110, 20, 6415-6425, 2006.
Publisher
American Chemical Society