Ketene derivatives sulfide

In addition to alkenes or compounds with strained double bonds, 1,2,4-triazines react readily with electron-rich dienophiles such as enol ethers, enamines, enaminones, vinyl silyl ethers, vinyl sulfides, vinyl acetate, and ketene derivatives (see also Ilouben-Weyl, Vol. E7b, p 471 ff). It has been shown195,403,404 that oxo compounds and catalytic amounts of amines can be used instead of enamines however, water formed in the reaction can result in the formation of side products.403... 

The actual umpolung reaction that allows a ketene dithioacetal to function as if it had an electrophilic carbon a to a carbonyl is achieved by conjugate addition of nucleophiles to the ketene dithioacetal, followed by hydrolysis. Both sulfide and sulfoxide ketene derivatives can be used. Conjugate addition of an ester enol-ate derived from ferf-butyl acetate (secs. 9.2, 9.4.B, 9.7.A) to the ketene dithioacetal [CH2=C(SOMe)2] gave the stable dithioacetal anion (382). Conversion of the dithioacetal to the bis(sulfoxide) enhanced the ability of that species to function as a Michael acceptor. Subsequent transformation of 382 gave the aldehyde-ester (383).370... 

The Lewis acid catalyst 53 is now referred to as the Narasaka catalyst. This catalyst can be generated in situ from the reaction of dichlorodiisopropoxy-titanium and a diol chiral ligand derived from tartaric acid. This compound can also catalyze [2+2] cycloaddition reactions with high enantioselectivity. For example, as depicted in Scheme 5-20, in the reaction of alkenes bearing al-kylthio groups (ketene dithioacetals, alkenyl sulfides, and alkynyl sulfides) with electron-deficient olefins, the corresponding cyclobutane or methylenecyclobu-tene derivatives can be obtained in high enantiomeric excess.18... 

Lithiosilanes derived from cyclopropane dithiocetals add to aldehydes to give precursors for Peterson olefinations - one of the best ways of making alkylidene cyclopropanes. In the example below, the lithiated allyl sulfide 72 adds cleanly to a ketene dithioacetal to give cyclopropane 73. Successive reductive lithiations give silane 74 and then a mixture of... 

The chiral titanium reagent (6) also catalyzes the [2 + 2] cycloaddition reaction of 1,3-oxazolidin-2-one derivatives of a,(3-unsaturated carboxylic acids and ketene dithioacetals in the presence of MS 4A to give cyclobutanone dithioacetal derivatives with high optical purity (eq 10). Vinyl sulfides, alkynyl sulfides, and 1,2-propadienyl sulfides can also be employed in this reaction to give the corresponding cyclobutanes, cyclobutenes and methylenecyclobutane derivatives with high optical purity (eqs 11 and 12). ... 

The corresponding l-(lithiovinyl) sulfides and related derivatives can be produced in THF alone by reaction of ketene thioacetals with lithium naphthalenide (Scheme 36, entry This reductive lithia-... 

Balczewski, P., and Mikolajczyk, M., Sulfenylation of tz-phosphoryl sulfides. Chemical evidence for intermediate formation of a-phosphoryl trithioorthoformate, Heteroatom Chem., 5, 487, 1994. Mikolajczyk, M., and Balczewski, P., Org anosulphur compounds. Part 71. Diverse reactivity of a-carhanions derived from a-phosphoryl dithioacetals and a-phosphoryl sulphides towards a.P-unsat-urated carhonyl compounds. A general synthesis of conjugated ketene dithioacetals. Tetrahedron. 48. 8697, 1992. 

Photochemical [2+2] cycloaddition reactions and [2+2] cycloaddition reactions of ketenes have been widely used for the preparation of cyclobutane derivatives. The thermal [2+2] cycloaddition reaction is known to proceed between highly electrophilic and nucleophilic alkenes alkenes having cyano, fluoro, and trif-luoromethyl groups react with electron-rich alkenes such as alkenyl ethers and sulfides [8]. As for the catalyst-mediated [2+2] cycloaddition reactions, Lewis acids are known to promote [2+2] cycloadditions [9,10,11,12,13,14,15,16,17,... 

As is shown in Scheme 6 and Table 1, alkynyl sulfides can be employed in the asymmetric [2-1-2] cycloaddition reaction however, the reactivity of alkynyl sulfides is largely dependent on the substituent at sulfur. A phenyl sulfide, 1-phenylthio-l-hexyne (5e), does not react with 2a, while the alkynyl methyl sulfides 5a-d react smoothly with fumaric and acryUc acid derivatives 2a,c, yielding cyclobutenes 6. Trisubstituted cyclobutenes are prepared in good yield and in almost enantiomerically pure forms with only a catalytic amount of the chiral titanium reagent. For the preparation of tetrasubstituted cyclobutenes, however, an equimolar amount of the chiral titanium is required for the reaction to go to completion. Compared with the ketene dimethyldithioacetal 3a, alkynyl methyl sulfides 5 are less reactive and the reaction between the crotonoyloxazo-lidinone 2b and 5 fails even in the presence of an equimolar amount of the catalyst. 

Other titanium complexes derived from tartaric acid have been used as chiral catalysts. The complexes generated from diol 2.50 and TiCl2(0/-Pr)2 are used as catalysts in asymmetric ene-reactions [778, 816], and in Diels-Alder [778, 780] or [2+2] cycloadditions of ketene thioacetals and unsaturated sulfides [778, 817], The best enantiomeric excesses are observed with 2.50 (R = Me, R = Ph) [778, 817] or 2.50 (R = R = Et, Ar = 3,5-Me2CgH3) [45], These catalysts are also efficient in hydrophosphonylation [818] and in asymmetric hydrocyanation of aldehydes with Me3SiCN [778], These titanium complexes may be used in catalytic amounts provided that the reactions are run in the presence of molecular sieves [559,816],... 

The procedure for oxidation of the sulfide to the sulfone is based on that reported earlier by Bordwell and Pitt. The synthetic utility of phenyl vinyl sulfone and sulfoxide derives not only from their ability to serve as excellent Michael acceptors toward such reagents as enolate anions and organometallics, but also as moderately reactive dienophiles in Diels-Alder reactions. " The resulting adducts, in turn, can be chemically modified so that these electron-deficient olefins serve as useful synthons for acetylene,ethylene,terminal olefins,vinylsilanes, and ketene in [4 + 2] cycloadditions. Phenyl vinyl sulfone undergoes ready cycloaddition to Danishefsky s diene in the first step of a protocol for the regiospecific y-alkylation of 2-cyclohexenones. Furthermore, the ready lithiation of phenyl... 

A small number of enantiomerically pure Lewis acid catalysts have been investigated in an effort to develop a catalytic asymmetric process. Initial work in this area was carried out by Narasaka and coworkers using the titanium complex derived from diol (8.216) in the cycloaddition of electron-deficient oxazolidinones such as (8.217) with ketene dithioacetal (8.218), alkenyl sulfides and alkynyl sulfides. Cyclic alkenes can be used in this reaction and up to 73% ee has been obtained in the [2- -2] cycloaddition ofthioacetylene (8.220) and derivatives with2-methoxycarbonyl-2-cyclopenten-l-one (8.221) usingthe copper catalyst generated with bis-pyridine (8.222). Furthermore, up to 99% ee has been obtained in the [2-1-2] cycloaddition of norbornene with alkynyl esters using rhodium/Hs-BINAP catalysts. This reaction is not restricted to the use of transition metal-based Lewis... 

The synthesis of racemic olivomycose derivative 11 has been achieved from dihydropyrone 12 by treatment with methylmagnesium bromide then borane-methyl sulfide complex followed by sodium perborate. The dihydropyrone. in turn, was prepared by tr ping die acyl ketene produced on pyrolysis of dioxinone 13 with butyl vinyl ether. 

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