Carbonyl compounds 2,4-disulfide

Manufacture. Trichloromethanesulfenyl chloride is made commercially by chlorination of carbon disulfide with the careful exclusion of iron or other metals, which cataly2e the chlorinolysis of the C—S bond to produce carbon tetrachloride. Various catalysts, notably iodine and activated carbon, are effective. The product is purified by fractional distillation to a minimum purity of 95%. Continuous processes have been described wherein carbon disulfide chlorination takes place on a granular charcoal column (59,60). A series of patents describes means for yield improvement by chlorination in the presence of dihinctional carbonyl compounds, phosphonates, phosphonites, phosphites, phosphates, or lead acetate (61). 

Azirine, trans-2-methyl-3-phenyl-racemization, 7, 33, 34 1-Azirine, 2-phenyl-reactions, 7, 69 with carbon disulfide, S, 153 1-Azirine, 3-vinyl-rearrangements, 7, 67 Azirines, 7, 47-93 cycloaddition reactions, 7, 26 fused ring derivatives, 7, 47-93 imidazole synthesis from, 5, 487-488 photochemical addition reactions to carbonyl compounds, 7, 56 photolysis, 5, 780, 7, 28 protonated... 

The stannylenes from either source will insert into the Sn- Sn, Sn-R, or Sn-H bonds of organotin compounds, and react with alkyl halides, disulfides, or peroxides as shown in the reaction scheme below, but only the stannylenes that are generated photolytically will react with carbonyl compounds, and it appears that the stannylenes may exist in two forms, perhaps related as singlet and triplet, or a com-plexed and uncomplexed species. 

Reaction of alkenes with a disulfide and BF3 etherate Addition of H2S to carbonyl compounds or imines... 

A new stable sulfenylating reagent 3-phenylsulfenyl-2-GV-cyano-imino)thiazolidine 57 has been described. It reacts with amines or thiols to give sulfenamides or disulfides in excellent yields. a-Sulfenylation of carbonyl compounds also proceeds smoothly and if an optically active 4-diphenylmethyl substituent is attached to the thiazolidine ring (58), the cyclic (3-ketoester 59 can be sulfenylated in high yield with an ee of 96% to give the sulfide 60 <00SL32>. 

The electroreduction of disulfides R2S2 (R = Ar, Aik), in the presence of carbonyl compounds and MesSiCl, includes the formation of intermediate thiosilanes and results in trimethylsilyl ethers of hemithioacetals of ketones and aldehydes or in full thioacetals depending on whether a two-compartment (a) or an undivided (b) cell was used (Scheme 48) [218]. 

Types of compounds are arranged according to the following system hydrocarbons and basic heterocycles hydroxy compounds and their ethers mercapto compounds, sulfides, disulfides, sulfoxides and sulfones, sulfenic, sulfinic and sulfonic acids and their derivatives amines, hydroxylamines, hydrazines, hydrazo and azo compounds carbonyl compounds and their functional derivatives carboxylic acids and their functional derivatives and organometallics. In each chapter, halogen, nitroso, nitro, diazo and azido compounds follow the parent compounds as their substitution derivatives. More detail is indicated in the table of contents. In polyfunctional derivatives reduction of a particular function is mentioned in the place of the highest functionality. Reduction of acrylic acid, for example, is described in the chapter on acids rather than functionalized ethylene, and reduction of ethyl acetoacetate is discussed in the chapter on esters rather than in the chapter on ketones. 

Iminophosphoranes have also proved to be key intermediates because they react with carbonyl compounds, isocyanates, isothiocyanates, acid chlorides, carbon dioxide, and carbon disulfide to give a wide range of imines and heterocumulenes, which are intermediates to pteridines. The preparation of iminophosphoranes has been investigated... 

The reactions of 2-iodopyrazine, 2-methylsulfanyl-4-iodopyrimidine and 3-iodo-6-phenylpyridazine with lithium tributylmagnesate resulted in very efficient iodine-magnesium exchange to yield the corresponding heteroarylmagnesium species (equations 35-37)" °. The reactions with carbonyl compounds and diphenyl disulfide proceeded with good yields. The reactions proceeded smoothly, and neither the starting iodide nor any butylated compounds derived from nucleophilic addition to the heteroaromatic nuclei were observed. 

Support-bound thiols can be alkylated under mild reaction conditions with alkyl halides, a, 3-unsaturated carbonyl compounds, or reactive aryl halides (Table 8.4). These reactions should be conducted under an inert atmosphere or in the presence of a reducing additive to prevent disulfide formation. PEG-bound thiophenol has been S-alkylated under conditions similar to those used in solution (DMF, Cs2C03, 20 °C, 15 h [52-54]). 

Kempter and co-workers prepared benzodiazocines 134 (R = R1 = H R2 = H, Me) from 135 (R = H, Me) by reduction and subsequent cyclo-condensation with the appropriate carbonyl compound (75MI7 87ZC36). For example, these workers condensed 3-(o-aminophenyl)propylamine with either phosgene or alkyl chloroformate to obtain 134 (R = R1 = R2 = H, X = O). Reaction of the same diamine (77MI5 87ZC36) and substituted derivatives (77MI5) with carbon disulfide afforded thio-... 

Very good yields (ca. 90%) are obtained by reacting sodium disulfide in methanol, at pH 9, with a,y-diacetylenic carbonyl compounds (Eq. 6).22... 

Sulfide groups can also be introduced by this methodology (entry 24) [405]. Simpkins and coworkers found that the reaction of acceptor-substituted alkenes 363 with diphenyl disulfide in the presence of 10 mol% of Co(eobe)2 344 and PhSiH3 as the stoichiometric hydrogen source furnished 31-71% of a-(phenylthio) carbonyl compounds 364. The intermediacy of radicals was proven by a 5-exo cyclization occurring in competition to the SH2 reaction at sulfur. 

Carbonyl compounds and other dipolarophiles containing heteroatoms react with miinch-nones. Thus benzaldehyde forms the betaine (245) which suffers ring-cleavage to yield the enamine (246 equation 65). Thiocarbonyl compounds and nitrosobenzene behave in an analogous manner. The action of dipolarophiles containing cumulative double bonds results in the formation of new mesoionic systems. Thus carbon disulfide and phenyl isothiocyanate afford a zwitterionic thiazole and imidazole, respectively (Scheme 25). 

Good yields of l-oxa-6,6aA 4-dithiapentalenes are obtained by reacting sodium disulfide at pH 9 with a, y-dialkynic carbonyl compounds (equation 8) (7lAHC(13)161,p. 172). 

All types of electrophiles have been used with 2-lithio-l,3-dithiane derivatives, including alkyl halides, sulfonates, sulfates, allylic alcohols, arene-metal complexes, epoxides, aziridines, carbonyl compounds, imines, Michael-acceptors, carbon dioxide, acyl chlorides, esters and lactones, amides, nitriles, isocyanates, disulfides and chlorotrialkylsilanes or stannanes. The final deprotection of the dithioacetal moiety can be carried out by means of different types of reagents in order to regenerate the carbonyl group by heavy metal coordination, alkylation and oxidation184 or it can be reduced to a methylene group with Raney-nickel, sodium or LiAIII4. 

The lithiation of 1,3-oxathiane (296) takes place with s-BuLi at —78 °C to give 2-lithio-1,3-oxathiane (315), an analogue of 2-lithio-l,3-dithiane (161), but with lower stability487. This intermediate reacts with different electrophiles, such as alkyl halides, carbonyl compounds, benzonitrile, dimethyl disulfide, dimethyl diselenide, trimethylplumbyl acetate and trimethylsilyl, germyl and stannyl chlorides488,489. However, further deprotection of 2-substituted 1,3-oxathianes has not been reported yet. 

Trimethylsilyl)-l,3-oxathianyllithium 332 was obtained by deprotonation of compound 323 with s-BuLi at —78 °C and reacted with different electrophiles such as deuterium oxide, alkyl iodides, dimethyl disulfide and carbonyl compounds, providing the corresponding products 333 in moderate to good yields. However, the reaction with benzonitrile, followed by acid hydrolysis, gave 2-benzoyl-l,3-oxathiane 334 (X = H) (Scheme 87)503,504. When the last reaction was quenched with methyl iodide before... 

Vinyllithiums of type 663 (R2 = R3 = H) reacted with primary alkyl bromides, carbonyl compounds, carbon dioxide, DMF, silyl chlorides, stannyl chlorides, disulfides and phenylselenyl bromide142,970-979. Scheme 173 shows the synthesis of dihydrojasmone 669 from the corresponding 1,4-diketone. a-(Phenylsulfanyl)vinyllithium 665, prepared from phenyl vinyl thioether, reacted with hexanal and the corresponding adduct 666 was transformed into its acetoacetate. This ester 667 underwent a Carrol reaction to produce the ketone 668, which was transformed into the cyclopentenone 669 by deprotection either... 

Addition of anionic nucleophiles to alkenes and to heteronuclear double bond systems (C=0, C=S) also lies within the scope of this Section. Chloride and cyanide ions are effieient initiators of the polymerization and copolymerization of acrylonitrile in dipolar non-HBD solvents, as reported by Parker [6], Even some 1,3-dipolar cycloaddition reactions leading to heterocyclic compounds are often better carried out in dipolar non-HBD solvents in order to increase rates and yields [311], The rate of alkaline hydrolysis of ethyl and 4-nitrophenyl acetate in dimethyl sulfoxide/water mixtures increases with increasing dimethyl sulfoxide concentration due to the increased activity of the hydroxide ion. This is presumably caused by its reduced solvation in the dipolar non-HBD solvent [312, 313]. Dimethyl sulfoxide greatly accelerates the formation of oximes from carbonyl compounds and hydroxylamine, as shown for substituted 9-oxofluorenes [314]. Nucleophilic attack on carbon disulfide by cyanide ion is possible only in A,A-dimethylformamide [315]. The fluoride ion, dissolved as tetraalkylammo-nium fluoride in dipolar difluoromethane, even reacts with carbon dioxide to yield the fluorocarbonate ion, F-C02 [840]. 

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