Competition between hetero-Diels-Alder and cheletropic addition of sulfur dioxide. Theoretical and experimental substituent effects on the relative stability of 3,6-dihydro-1,2-oxathiin-2-oxides (sultines) and 2,5-dihydrothiophene-1,1-dioxides (sulfolenes). Anomeric effects in sultine and 6-substituted derivatives

Citation
T. Fernandez et al., Competition between hetero-Diels-Alder and cheletropic addition of sulfur dioxide. Theoretical and experimental substituent effects on the relative stability of 3,6-dihydro-1,2-oxathiin-2-oxides (sultines) and 2,5-dihydrothiophene-1,1-dioxides (sulfolenes). Anomeric effects in sultine and 6-substituted derivatives, J ORG CHEM, 63(25), 1998, pp. 9490-9499
Citations number
48
Categorie Soggetti
Chemistry & Analysis","Organic Chemistry/Polymer Science
Journal title
JOURNAL OF ORGANIC CHEMISTRY
ISSN journal
00223263 → ACNP
Volume
63
Issue
25
Year of publication
1998
Pages
9490 - 9499
Database
ISI
SICI code
0022-3263(199812)63:25<9490:CBHACA>2.0.ZU;2-L
Abstract
At low temperature and in the presence of CF3COOH, SO2 undergoes Diels-Alde r additions with (E)-1-acetoxybutadiene (8d) giving a 1:10 mixture of diast ereomeric 6-acetoxysultines (9d + 10d). The Van't Hoff plot for equilibria 8d + SO2 reversible arrow 9d + 10d led to Delta H-r = -7.0 +/- 0.3 kcal/mol , Delta S-r = -42 +/- 3 cal . mol(-1) . K-1. At 20 degrees C, 8d underwent a slow cheletropic addition with SO2 giving 2-acetoxysulfolene (11d, Delta Hr congruent to -11.5 kcal/mol), the structure of which was established by single-crystal X-ray diffraction studies. (E)-Chloro (8e) and (E)-bromobuta diene (8f) did not undergo Diels-Alder additions with SO2, even in the pres ence of protic or Lewis acid promoters. Low yields of 2-chloro- (11e) and 8 -bromosulfolene (11f) were obtained at 20 degrees C. The structure of 11e w as confirmed by single-crystal X-ray diffraction. The potential energy hype rsurfaces of the Diels-Alder and cheletropic additions of SO2 to butadiene (8a), (E)-piperilene (8b), (E)-1-methoxy- (8c), (E)-1-acetoxy- (8d), and (E )-1-chlorobutadiene (8e) were studied by ab initio quantum calculations at the MP2/6-31G* level. In agreement with the experiment, 6-substituted sulti nes 9X and 10X were less stable than the corresponding 2-substituted sulfol enes 11X for X = Me, OAc, Cl. With X = OMe, the two diastereomeric 6-methox ysultines (9c, 10c) and 8-methoxysulfolene (11c) were calculated to have si milar stabilities. This is attributed to a stabilizing thermodynamic anomer ic effect or gem-sulfinate/methoxy disubstitution effect in 9c, 10c. Such e ffects were not detected for sulfinate/acetoxy (9d, 10d) and sulfinate/chlo ro (9e, 10e) disubstitutions. The relative instability of 8-acetoxy- (11d) and 2-chlorosulfolene (11e) compared with their cycloaddents is attributed to repulsive interactions between the SO2 moieties and the 2-substituents. The Alder endo mode of [4 + 2] cycloaddition of SO2 is predicted to be fast er than the "anti-Alder mode" of additions for dienes 8X, X = Me, OMe, OAc, Cl. The resulting diastereomeric sultines 9X and 10X, respectively, exist as equilibria (energy barrier: ca. 5-6 kcal/mol) of two conformers 9X rever sible arrow 9X, 10X reversible arrow 10X. In general, the conformers 9X, 10 X with pseudoaxial S=O group are preferred (conformational anomeric effect of the sulfinate moiety). Repulsive interactions between pseudoaxial S=O an d polar cis-6-substituents (e.g.: X = OMe, OAc) in 9X may render conformers 9X (with the S-O and 6-X groups in pseudoequatorial positions) as stable a s conformers 9X. The calculations predict the existence of conformational a nomeric effects of 2-3 kcal/mol for the gem-sulfinate/methoxy (9c, 10'c) an d gem-sulfinate/acetoxy disubstitution (9d, 10'd).