SCHEDULED MAINTENANCE
X-ray absorption spectroscopy of organic sulfoxides
a
Natalia V.
Dolgova,
a
Charles J.
Titus,
b
Samin
Sharifi,
c
Simon J.
George,
d
Ingrid J.
Pickering
ae
and
Graham N.
George
*ae
Abstract
Organic sulfoxides, a group of compounds containing the sulfinyl S![[double bond, length as m-dash]](https://www.rsc.org/images/entities/char_e001.gif)
O group, are widespread in nature, important in health and disease, and used in a variety of applications in the pharmaceutical industry. We have examined the sulfur K-edge X-ray absorption near-edge spectra of a range of different sulfoxides and find that their spectra are remarkably similar. Spectra show an intense absorption peak that is comprised of two transitions; a S 1s → (S–O)σ* and a S 1s → [(S–O)π* + (S–C)σ*] transition. In most cases these are sufficiently close in energy that they are not properly resolved; however for dimethylsulfoxide the separation between these transitions increases in aqueous solution due to hydrogen bonding to the sulfinyl oxygen. We also examined tetrahydrothiophene sulfoxide using both the sulfur and oxygen K-edge. This compound has a mild degree of ring strain at the sulfur atom, which changes the energies of the two transitions so that the S 1s → [(S–O)π* + (S–C)σ*] is below the S 1s → (S–O)σ*. A comparison of the oxygen K-edge X-ray absorption near-edge spectra of tetrahydrothiophene sulfoxide with that of an unhindered sulfoxide shows little change, indicating that the electronic environment of oxygen is very similar.
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