Sulfides vinyl, preparation

Phenyl vinyl sulfide is prepared from thiophenol and 1,2-dibromoethane according to the procedure described by Paquette and Carr see Org. Synth. 1985, 64, 157. An earlier, three-step synthesis employing 2-chloroethanol instead of 1,2-dibromoethane is available.2... 

THF at - 20°. All other anions should be prepared separately, and 2 should be added to 1 at - 20°. By these procedures mono- and disubstituted olefins, vinyl sulfides, vinyl ethers, and allylsilanes are available in 35-80% yield, usually as cis-trans mixtures. Trisubstituted olefins are best prepared by similar routes from a -branched nitrile anions. 

Vinyl sulfides are prepared from sulfoxides under a variety of conditions. These include reaction with acetic anhydride at reflux, with trifluoroacetic anhydride in the presence of an amine base and with acetic anhydride in the presence of an acid catalyst. In fact, precautions must be taken in certain Pum-merer reactions discussed in the preceding sections to avoid competing vinyl sulfide formation. 

In 1989 McDougal and co-workers presented an access to some racemic models of the 1 l-oxabicyclo-[6.2.1]undecane framework found in furanoheliangolides (the C/D ring system) [30]. The key reaction of their approach involved the ozonolysis of a functionalized oxa-bridged octalin 27, which provided the desired 1 l-oxabicyclo[6.2.1]undecane framework 28 (Scheme 3). Their synthetic approach started from the Diels-Alder reaction of 2-methyl-3-phenylthiofuran 23 with maleic anhydride. Namely, siteselective a-lithiation of vinyl sulfide 22, prepared from the conjugate addition product of thiophenol and acrolein, then quenching the... 

Heteroatom substituted ruthenium carbenes like 7 and 8 (Cy=cyclohexyl, i-Pr=iso-propyl) were synthesized similar to 6, just adding the appropriate vinylethers and vinylthioethers instead of styrene in the last step (Scheme 4) [20]. Phenyl vinyl sulfide was prepared according to Scheme 5a. 

Pyridyl)hydrazine (Aldrich), 4-acetylpyridine (Acros), N,N,N -trimethylethylenediamine (Aldrich), methylrhenium trioxide (Aldrich), InQj (Aldrich), Cu(N0j)2-3H20 (Merck), Ni(N03)2-6Il20 (Merck), Yb(OTf)3(Fluka), Sc(OTf)3 (Fluka), 2-(aminomethyl)pyridine (Acros), benzylideneacetone (Aldrich), and chalcone (Aldrich) were of the highest purity available. Borane dimethyl sulfide (2M solution in THE) was obtained from Aldrich. Methyl vinyl ketone was distilled prior to use. Cyclopentadiene was prepared from its dimer immediately before use. (R)-l-acetyl-5-isopropoxy-3-pyrrolin-2-one (4.15) has been kindly provided by Prof H. Hiemstra (University of Amsterdam). 

Hydrometallation is catalyzed by Pd. Hydroboration of l-buten-2-methyl-3-yne (197) with catecholborane (198) gives the 1,4-adduct 199 with 84% selectivity. The ratio of Pd to phosphine (1 1.5) is important[l 10]. The vinyl sulfide 201 is prepared by a one-pot reaction of the thioalkyne 200 via a Pd-catalyzed hydroborution-coupling sequence using dppf as a ligand[l 11]. 

Vinyl chloride reacts with sulfides, thiols, alcohols, and oximes in basic media. Reaction with hydrated sodium sulfide [1313-82-2] in a mixture of dimethyl sulfoxide [67-68-5] (DMSO) and potassium hydroxide [1310-58-3], KOH, yields divinyl sulfide [627-51-0] and sulfur-containing heterocycles (27). Various vinyl sulfides can be obtained by reacting vinyl chloride with thiols in the presence of base (28). Vinyl ethers are produced in similar fashion, from the reaction of vinyl chloride with alcohols in the presence of a strong base (29,30). A variety of pyrroles and indoles have also been prepared by reacting vinyl chloride with different ketoximes or oximes in a mixture of DMSO and KOH (31). 

It is well known that aziridination with allylic ylides is difficult, due to the low reactivity of imines - relative to carbonyl compounds - towards ylide attack, although imines do react with highly reactive sulfur ylides such as Me2S+-CH2-. Dai and coworkers found aziridination with allylic ylides to be possible when the activated imines 22 were treated with allylic sulfonium salts 23 under phase-transfer conditions (Scheme 2.8) [15]. Although the stereoselectivities of the reaction were low, this was the first example of efficient preparation of vinylaziridines by an ylide route. Similar results were obtained with use of arsonium or telluronium salts [16]. The stereoselectivity of aziridination was improved by use of imines activated by a phosphinoyl group [17]. The same group also reported a catalytic sulfonium ylide-mediated aziridination to produce (2-phenylvinyl)aziridines, by treatment of arylsulfonylimines with cinnamyl bromide in the presence of solid K2C03 and catalytic dimethyl sulfide in MeCN [18]. Recently, the synthesis of 3-alkyl-2-vinyl-aziridines by extension of Dai s work was reported [19]. 

PP-g-MA) silicate nanocomposites and intercalated thermoset silicate nanocomposites for flame-retardant applications were characterised by XRD and TEM [333], XRD, TEM and FTIR were also used in the study of ID CdS nanoparticle-poly(vinyl acetate) nanorod composites prepared by hydrothermal polymerisation and simultaneous sulfidation [334], The CdS nanoparticles were well dispersed in the polymer nanorods. The intercalation of polyaniline (PANI)-DDBSA (dodecylbenzene-sulfonate) into the galleries of organo-montmorillonite (MMT) was confirmed by XRD, and significantly large 4-spacing expansions (13.3-29.6A) were observed for the nanocomposites [335],... 

To gain understanding of the interdependence between the olefin reduction and the sulfoxide reduction, the saturated sulfoxide 52 was prepared and treated with BH3-THF. No reaction was observed under the similar conditions (Scheme 5.18). The unactivated vinyl sulfide 16 was also not reactive toward BH3-THF. These results indicated that sulfoxide and olefin were reduced simultaneously, not independently. Again this phenomenon was unexpected and pointed to the unique nature of this reaction. 

Tosylate is displaced by weak oxyanions with little elimination in aprotic solvents, providing alternative routes to polymer-bound esters and aryl ethers. Alkoxides, unfortunately, give significant functional yields of (vinyl)polystyrene under the same conditions. Phosphines and sulfides can also be prepared from the appropriate anions (57), the latter lipophilic enough for phase-transfer catalysis free from poisonning by released tosylate. 

The second cycloaddition substrate took to form of 91 (Scheme 1.9b), incorporating a vinyl sulfone dipolarophile. Beginning with cyano ketone 84, which was readily prepared from 1,5-dicyanopentane via a previously reported three-step sequence [45], condensation with thiophenol produced vinyl sulfide 85 in 84 % yield. Vinyl sulfide 85 underwent bromination in acetonitrile to afford bromo-vinyl sulfide 86 (86 %), which was then treated with isopropylmagnesium chloride [46] to effect metal-halogen exchange affording an intermediate vinyl magnesium bromide species. Subsequent alkylation with Mel in the presence of catalytic CuCN provided the alkylated vinyl sulfide 87 in 93 % yield. The nitrile within vinyl... 

The preparation of phenyl vinyl sulfide is described Org. Synth., Coll. Vol. VII 1990, 453. The compound is also available from Aldrich Chemical Company, Inc. 

B. Preparation of Vinyl Sulfides by the Reaction of (Phenylthio)carbenes... 

Aguilar, A.M. and Daigle, D., Vinyl halide displacement by metallo organo-phosphides. Preparation of fra s-(f-styryldiphenylphosphine oxide and sulfide, /. Org. Chem., 30, 2826, 1965. 

Similar to 67, the oxanickelacycle 69 prepared from 3-hexyne, Ni(cod)2/bipy, and C02 also acted as a nucleophilic reagent. The reaction of 69 with p-tolyl disulfide took place at the Ni-C bond to give vinyl sulfide 70 in 53% yield after esterification (Scheme 23).37 In the case of 2-bromopropiophenone as an electrophile, the cycloadduct 71 was obtained in 47% yield after acidic workup. 

From the same zirconocene intermediates, Huang and co-workers have prepared vinyl sulfides [24,35] and sulfones [26] through use of the appropriate quenching agents (Scheme 4.6). Treatment of vinyl zirconocenes with an equivalent of a disulfide in THF at 60 °C affords, after work-up and purification, (E)-vinyl sulfides in good isolated yields. Vinyl sulfones, which as a class are generally useful as Michael acceptors and Diels—Alder dienophiles, are obtained in about two hours upon treatment of (fc)-vinyl zirconocenes with various sulfonyl chlorides in THF at 40°C. 

Palladium-catalyzed reactions of arylboronic acids have been utilized to craft precursors for constructing indole rings. Suzuki found that tris(2-ethoxyethenyl)borane (149) and catechol-derived boranes 150 readily couple with o-iodoanilines to yield 151, which easily cyclize to indoles 152 with acid [158]. Kumar and co-workers used this method to prepare 5-(4-pyridinyl)-7-azaindoles from 6-amino-5-iodo-2-methyl-3,4 -bipyridyl [159], A similar scheme with catechol-vinyl sulfide boranes also leads to indoles [160]. A Suzuki protocol has been employed by Sun and co-workers to synthesize a series of 6-aryloxindoles [161]. 

E)-Alkenylsilanes and -sulfides.2 Dibromomethyltrimethylsilane (1), prepared from ClSi(CH3)3 and CH2Br2, is reduced by commercial CrCl2 in THF to a reagent that converts aldehydes into (E)-vinylsilanes. A related reaction provides (E)-vinyl sulfides selectively from C6H5SCHC12. 

Reaction of l,3-bis(methylthio)-2-methoxypropane with 2 moles of lithium diisopropylamide5 (or w-butyllithium) effects (a) the elimination of methanol to form l,3-bis(methylthio)propene and (b) the lithiation of this propene to generate l,3-bis(methylthio)allyllithium in solution. Its conjugate acid, l,3-bis(methylthio)propene, can be regenerated by protonation with methanol, and has also been prepared (a) in 31% yield by reaction of methylthioacetaldehyde with the lithio derivative of diethyl methylthiomethylphosphonate,5 (b) in low yield by acid-catalyzed pyrolysis of l,l-bis(methylthio)-3-methoxypropane,6 and (c) in low yield by acid-catalyzed coupling of vinyl chloride with chloromethyl methyl sulfide.7... 

The preparative oxidation of vinyl sulfides is thought to proceed via an intermediate bridged sulfonium cation that can be attacked by an external nucleophile from the less encumbered side to give two isomers (Scheme 21) [87]. 

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