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Sulfinyl bond

Sulfoxides are compounds that contain a sulfinyl group covalendy bonded at the sulfur atom to two carbon atoms. They have the general formula RS(0)R, ArS(0)Ar, and ArS(0)R, where Ar and Ar = aryl. Sulfoxides represent an intermediate oxidation level between sulfides and sulfones. The naturally occurring sulfoxides often are accompanied by the corresponding sulfides or sulfones. The only commercially important sulfoxide is the simplest member, dimethyl sulfoxide [67-68-5] (DMSO) or sulfinylbismethane. [Pg.107]

Optically active allylic alcohols can only be prepared from optically active sulfinyl epoxides when the created double bond is conjugated to an aromatic system. One example is described below29. [Pg.656]

The addition of enolate anions to (E)- and (Z)-3,3,3-trifluoro-l-[(4-methylphenyl)sulfinyl]-1 -propene has been investigated (E)- and (Z)-a,/(-unsaturated sulfoxides undergo addition in the opposite stereochemical sense3,4. In general, yields and product diastereoselection are high. When the -position of the double bond of the enolate is substituted then all four diastereomer-ic products result. [Pg.1041]

TABLE 9. Bond energies in sulfoxides and sulfones, and enthalpies of formation of sulfinyl and sulfonyl radicals... [Pg.104]

Sulfoxides (R1—SO—R2), which are tricoordinate sulfur compounds, are chiral when R1 and R2 are different, and a-sulfmyl carbanions derived from optically active sulfoxides are known to retain the chirality. Therefore, these chiral carbanions usually give products which are rich in one diastereomer upon treatment with some prochiral reagents. Thus, optically active sulfoxides have been used as versatile reagents for asymmetric syntheses of many naturally occurring products116, since optically active a-sulfinyl carbanions can cause asymmetric induction in the C—C bond formation due to their close vicinity. In the following four subsections various reactions of a-sulfinyl carbanions are described (A) alkylation and acylation, (B) addition to unsaturated bonds such as C=0, C=N or C= N, (C) nucleophilic addition to a, /5-unsaturated sulfoxides, and (D) reactions of allylic sulfoxides. [Pg.606]

When both the carbonyl group and the sulfinyl group of a /J-ketosulfoxide are attached to the same carbon atom of a carbon-carbon double bond, then addition of nucleophiles can occur at the electrophilic -carbon atom (i.e., 1,4-addition, conjugate addition) and/or... [Pg.837]

The total yield of OH radicals is 6.0 and hence the yield of sulfinic acid of G = 2.7 indicates that 45% of the OH radical produced in the radiolysis attack the sulfinyl group of MTMSO. The authors48 said that the residual 55% attack the sulfide S—C bond, but this claim ignores completely other routes, such as hydrogen abstraction, which was found for other sulfoxides45. [Pg.903]

TABLE 1. ESR data and bond dissociation energies of some sulfinyl radicals... [Pg.1082]

It seems to the author that another possible pathway can coexist with the above-mentioned reversible addition of sulfinyl radicals to olefinic double bonds, that is, the reversible addition by the sulfinyl oxygen, since a substantial amount of the unpaired electron spin-density resides on the oxygen atom. [Pg.1086]

Correa and Waters50 also proposed a mechanistic scheme where the key step of the overall reaction involves the recombination of sulfonyl radicals to form an intermediate with an O—S bond, the decomposition of which yields a sulfinyl radical (ArSO ) and an oxygen-centered radical ArS020 Later this suggestion was further strengthened on the basis of ESR studies51 and thanks to the elucidation of the electronic structure of sulfonyl radicals. However, it seems to the author that the available literature data point to an overall mechanism for equation 17 more complex that the one suggested50 (cf., for... [Pg.1100]

Oxidation of cyclic phosphonoformaldehyde dithioacetal, using the Modena protocol, yields the trans disulfoxide 121 in excellent enantiomeric excess. Then 121, via HWE olefination and oxidation of the double bond has been used for the diastereoselective preparation of spirocyclic his-sulfinyl oxiranes (new versatile intermediates in asymmetric synthesis) [79] (Scheme 37). [Pg.186]


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See also in sourсe #XX -- [ Pg.64 ]




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