On the purported axial preference in 2-methylthio and 2-methoxycyclohex-anones: steric effects versus orbital interactions

Fraser, Robert R.; Faibish, Neil C.

doi:10.1139/v95-013

Cited by 14 publications

(10 citation statements)

References 20 publications

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“…Analysis of the 1 H NMR data in CDCl 3 for a diastereomeric mixture of 2-phenylsulfinylcyclohexanone (A + B) had indicated the presence of two H-2 resonances at 3.31 and 3.55 ppm (12) 4 . Comparison of line widths with those of anancomeric, conformationally biased derivatives indicated that the isomer A, whose chemical shift was 3.31 ppm, existed as a 3:2 mixture of axial:equatorial conformers, whereas B, whose chemical shift was 3.55 ppm, existed as a 2:1 mixture of equatorial:axial conformers.…”

Section: Resultsmentioning

confidence: 99%

“…It had been suggested that the increased axial preference for the heavier chalcogen substituents was due to the increased nonbonded repulsion with the carbonyl group in the equatorial conformer (3,4). However, the possibility of the role of σ C-X → π C O = * and n X → π C O = * stabilizing orbital interactions as contributors to the conformational preferences was also recognized ( Fig.…”

Section: Introductionmentioning

confidence: 99%

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Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones Evidence for "exo-anomeric" interactions

Trapp¹,

Wojcik²,

Zajac³

et al. 2006

Can. J. Chem.

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The conformational analysis of 2-phenylsulfinylcyclohexanone by ab initio density functional calculations is described. Six conformations corresponding to axial/equatorial isomers and rotation about the exocyclic C2-S bond in each of the RR or RS diastereomers were calculated and the results were examined in terms of relative energies, electrostatic interactions, orbital interactions, and geometrical variations. The global minimum conformation was the RS isomer that positioned the phenylsulfinyl moiety in an equatorial orientation and the sulfinyl oxygen in an anti orientation with respect to the carbonyl carbon atom. Of the other three low energy conformations, only one had a gauche arrangement of these atoms, and only in one of the four lower energy conformations was evidence found for a S-O(-)···C(+)-O electrostatic interaction. In contrast, the results were consistent with the operation of n S → π C O = * stabilizing orbital interactions. Further support for this hypothesis was obtained from the increased C=O bond lengths in these four conformations relative to the other conformations, and by the torsional angle distortion away from ideal geometry, presumably to maximize the stabilizing orbital interaction. We propose that this conformational preference is a manifestation of a generalized exo-anomeric effect. The longer C2-S bond in the axial isomers was also interpreted in terms of a stabilizing π C=O → σ C-S * interaction, analogous to an endo-anomeric interaction. Comparison of the computational results to available experimental data on the conformational equilibrium of each diastereomer in solution suggests which conformers are present in each of the equilibria. The available data for the solid state indicate that the RR and RS isomers both crystallize in high energy conformations, stabilized by intermolecular interactions.Résumé : On a fait appel à des calculs ab initio de densité fonctionnelle pour faire l'analyse conformationnelle de la 2-phénylsulfinylcyclohexanone. On a fait des calculs sur six conformations qui correspondent aux isomères axial/équa-torial et de rotation autour de la liaison C2-S pour chacun des diastéréoisomères RR et RS et on a examiné les résul-tats en fonction des énergies relatives, des interactions électrostatiques, des interactions d'orbitales et des variations de géométrie. La conformation d'énergie globale minimale est celle de l'isomère RS portant le substituant phénylsulfinyle en position équatoriale avec l'oxygène du sulfinyle dans une orientation anti par rapport à l'atome de carbone du carbonyle. Des trois autres conformations de faible énergie, une seule comporte un arrangement gauche de ces atomes et on n'a trouvé des données suggérant l'existence d'une interaction électrostatique S-O(-)···C(+)-O que pour une seule des quatre conformations de basse énergie. Par ailleurs, les résultats sont en accord avec l'opération d'interactions d'orbitales stabilisantes n S → π C O = * . On a obtenu une confirmation supplémentaire pour cette hypothèse dans l'augmentation des longue...

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones Evidence for "exo-anomeric" interactions

Trapp¹,

Wojcik²,

Zajac³

et al. 2006

Can. J. Chem.

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“…This is good evidence that all these compounds adopt one preferred conformation and that these values do not correspond to mean values reflecting equilibria between two, or possibly even more, conformations. 15 Finally, it is interesting to note, that the (formal) OCH 3 -addition to lactones 1 and 2 occurs regiospecifically at C(5) whereas for ketone 9 20% of the O,S-acetal 11 is also formed. A possible reason for this could be a different degree of twisting around the C-C double bond in the excited unsaturated molecules, the bulky substituents on C(2) totally hindering the approach of methanol to C(6) in the unsaturated lactones, but only partially in the unsaturated ketone, respectively.…”

Section: Methodsmentioning

confidence: 98%

Light-induced reactions of 2,2-bis(2,2-dimethylethyl)-6H -1,3-oxaselenin-6-one in methanol

Okuma¹,

Schmidt²,

Margaretha³

2006

Arkivoc

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“…In the vapor phase and in non-polar solvents, three factors may contribute to a preference for the axial conformation. 27 A steric effect between the lone pairs of the oxygen and the asubstituent and a repulsive dipole-dipole interaction (both in the equatorial conformer) and an interaction between the n Br and p* CO orbitals. In polar solvents, the second factor will be decreased and the equatorial conformer becomes more stable and has the larger population.…”

Section: Conformational Preferencesmentioning

confidence: 99%

Conformational analysis of 2‐bromocyclohexanone. A combined NMR, IR, solvation and theoretical approach

Freitas

Rittner

Tormena

et al. 2001

J of Physical Organic Chem

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An improved method of conformational analysis using 1 H and 13 C NMR, IR, theoretical calculations and solvation theory is reported for 2-bromocyclohexanone, used here as a model compound. The solvent dependence of the 3 J HH , 1 J CH and 1 J CD NMR coupling constants and the associated changes in the IR first overtone carbonyl band intensities together with theoretical calculations allow the direct determination of the conformational equilibria without recourse to model compounds. Calculations with the Gaussian 98 program at the HF/6-31 g(d,p) and B3LYP/ 6-31 g(d,p) levels together with solvation theory gave the conformer free energy difference (E eq À E ax ) in different solvents. The observed couplings, when analyzed by solvation theory and utilizing DFT geometries, gave a value of E eq À E ax of 1.15 kcal mol À1 in the vapor phase, decreasing to 0.6 kcal mol À1 in CCl 4 and to À0.5 kcal mol À1 in DMSO solution (1 kcal = 4.184 kJ). The axial percentage changes from 74% (in CCl 4 ) to 30% (in DMSO), and these are in good agreement with infrared data ( C=O , first overtone), despite the uncertainties of the latter method. The results illustrate the advantages of the joint application of these techniques, which represents an improved approach to the study of the conformational equilibria of substituted cyclohexanones.

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On the purported axial preference in 2-methylthio and 2-methoxycyclohex-anones: steric effects versus orbital interactions

Cited by 14 publications

References 20 publications

Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones Evidence for "exo-anomeric" interactions

Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones Evidence for "exo-anomeric" interactions

Light-induced reactions of 2,2-bis(2,2-dimethylethyl)-6H -1,3-oxaselenin-6-one in methanol

Conformational analysis of 2‐bromocyclohexanone. A combined NMR, IR, solvation and theoretical approach

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On the purported axial preference in 2-methylthio and 2-methoxycyclohex-anones: steric effects versus orbital interactions

Cited by 14 publications

References 20 publications

Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones  Evidence for "exo-anomeric" interactions

Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones  Evidence for "exo-anomeric" interactions

Light-induced reactions of 2,2-bis(2,2-dimethylethyl)-6H -1,3-oxaselenin-6-one in methanol

Conformational analysis of 2‐bromocyclohexanone. A combined NMR, IR, solvation and theoretical approach

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Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones Evidence for "exo-anomeric" interactions

Ab initio DFT calculations of the configurational and conformational preferences of 2-phenylsulfinylcyclohexanones Evidence for "exo-anomeric" interactions