¹H chemical shifts in NMR. Part 27: proton chemical shifts in sulfoxides and sulfones and the magnetic anisotropy, electric field and steric effects of the SO bond

Abstract: The (1)H chemical shifts of a series of sulfoxide and sulfone compounds in CDCl(3) solvent were obtained from experiment and the literature. These included dialkyl sulfoxides and sulfones (R(2)SO/R(2)SO(2), R = Me, Et, Pr, n-Bu), the cyclic compounds tetramethylene sulfoxide/sulfone, pentamethylene sulfoxide/sulfone and the aromatic compounds p-tolylmethylsulfoxide, dibenzothiopheneoxide/dioxide, E-9-phenanthrylmethylsulfoxide and (E) (Z)-1-methylsulfinyl-2-methylnaphthalene. The spectra of the pentamethylene … Show more

“…The NMR spectra indicate a fast equilibrium of the two energetically equivalent chair forms of 8A and 8C in solution (discussion concerning conformation of thiacyclohexanes was recently reviewed43). It was found previously that sulfoxide 8B appears in solution as a mixture of two conformers with an oxygen atom in the axial or equatorial position42 (Fig. 6).…”

“…To acquire deeper insight into the sulfoxide group anisotropy42 pattern, we performed a series of calculations of the individual hydrogen chemical shifts in dimethylsulfoxide ( 1B ), where the torsion angle CSCH was adjusted to cover the entire range of the free rotation of the methyl group (360°) with a step of 10° (Fig. 3).…”

Observed and calculated ¹H and ¹³C chemical shifts induced by the in situ oxidation of model sulfides to sulfoxides and sulfones

“…The NMR spectra indicate a fast equilibrium of the two energetically equivalent chair forms of 8A and 8C in solution (discussion concerning conformation of thiacyclohexanes was recently reviewed43). It was found previously that sulfoxide 8B appears in solution as a mixture of two conformers with an oxygen atom in the axial or equatorial position42 (Fig. 6).…”

“…To acquire deeper insight into the sulfoxide group anisotropy42 pattern, we performed a series of calculations of the individual hydrogen chemical shifts in dimethylsulfoxide ( 1B ), where the torsion angle CSCH was adjusted to cover the entire range of the free rotation of the methyl group (360°) with a step of 10° (Fig. 3).…”

Observed and calculated ¹H and ¹³C chemical shifts induced by the in situ oxidation of model sulfides to sulfoxides and sulfones

“…The reason for this systematic chemical shift divergence is, of course, the stereochemistry of the sulfoxides. Some 13 C and 1 H chemical shift trends exerted by S (+) -O (À) groups on neighbouring hydrogen and carbon atoms have been reported [16,18] but they were derived from compounds containing rigid six-membered rings in chair-conformation whereas the sulfoxides 1 and 2 are mixtures of more than one open-chain conformers (see below). Therefore, empirical correlations between those molecular systems with respect to effects on chemical shifts failed or appeared to be speculative.…”

“…Sulfoxides offer both types of ligand categories simultaneously, a soft sulfur atom with a free electron pair and a hard oxygen atom; the S (+) -O (À) bond is predominantly a single bond [16]. The question is which of these two atoms, O or S, is the binding site.…”

Stereoisomeric 2-butylphenylsulfoxides and their binding modes in the adduct formation with an enantiopure dirhodium tetracarboxylate complex

“…Empirically calculated chemical shifts are in close agreement to the experimental values. [13,14] The 13 C NMR chemical shifts for 1-5 are presented in Table 3 and the signals of the diastereomers diast 1 and diast 2 were assigned through HETCOR experiments of 5, taken as the prototype for the whole series. The signals at δ ∼ 29.8 − 32.4 and at δ ∼ 61.3 − 61.9 ppm for 1-5 correspond to C-1 and C-2, respectively.…”

Complete assignment of ¹H and ¹³C NMR spectra of α‐phenylsulfinyl‐N‐methoxy‐ N‐methylpropionamide and some p‐substituted derivatives