Chlorinations oxalyl chloride

Sodium hydrosulfite reagent, chemical mixed indicators Methylene blue trihydrate reagent, chemicals t-Butyl acetate reagent, chlorination Oxalyl chloride reagent, chlorine detection o-Tolidine... 

A convenient modification of the Gassman oxindole synthesis was reported using ethyl (methylsulfinyl)acetate (101) activated by oxalyl chloride to generate the same chlorosulfonium salt 102 normally generated from ethyl (methylthio)acetate 100 and elemental chlorine <96TL4631>. Thus, treatment of the sulfoxide 101 with oxalyl chloride, followed by the addition of the desired aniline, triethylamine, and finally acid cyclization of 103 affords the oxindoles 104. This procedure is particularly convenient for reactions carried out on smaller scales and for anilines that ate susceptible to electrophiUc halogenation. 

DMSO or other sulfoxides react with trimethylchlorosilanes (TCS) 14 or trimefhylsilyl bromide 16, via 789, to give the Sila-Pummerer product 1275. Rearrangement of 789 and further reaction with TCS 14 affords, with elimination of HMDSO 7 and via 1276 and 1277, methanesulfenyl chloride 1278, which is also accessible by chlorination of dimethyldisulfide, by treatment of DMSO with Me2SiCl2 48, with formation of silicon oil 56, or by reaction of DMSO with oxalyl chloride, whereupon CO and CO2 is evolved (cf also Section 8.2.2). On heating equimolar amounts of primary or secondary alcohols with DMSO and TCS 14 in benzene, formaldehyde acetals are formed in 76-96% yield [67]. Thus reaction of -butanol with DMSO and TCS 14 gives, via intermediate 1275 and the mixed acetal 1279, formaldehyde di-n-butyl acetal 1280 in 81% yield and methyl mercaptan (Scheme 8.26). Most importantly, use of DMSO-Dg furnishes acetals in which the 0,0 -methylene group is deuter-ated. Benzyl alcohol, however, affords, under these reaction conditions, 93% diben-zyl ether 1817 and no acetal [67]. 

Interaction of the two compounds led to the evolution of a toxic gas thought to be chlorine [1], It is the far more poisonous phosgene, arising from the known base-catalysed disproportionation of the carbonate to oxalyl chloride and phosgene, which occurs even at ambient temperature [2], (The editor knows that amides, too, catalyse this rearrangement and suspects that Lewis acids will also)... 

Chlorination of amide or lactam using oxalyl chloride gives the chloro-iminium salts in situ. They react with tetrathiomolybdate to afford the corresponding thioamides and thiolactams in short-time and at low temperature in high yields. This method affords high yields of secondary or tertiary thioamides on the other hand it gives low yield of primary thioamide (17% yield) (Scheme 12).3 3... 

Several laboratories have reported that Swern oxidation of alcohols can be accompanied of a-chlorination of keto or (1-keto ester groups. Undesired electrophilic chlorination can be avoided by use of oxalyl chloride (1.05 equiv.) and DMSO (2.5 equiv.) in stoichiometric amounts or by use of acetic anhydride or trifluoroacetic anhydride in place of oxalyl chloride.1... 

Oxidation of alcohols.1 This phosphate is apparently as efficient as oxalyl chloride for activation of DMSO for oxidation, and the derived reagent is less prone to give chlorine-containing byproducts. The reactions are rapid at 20° or below, and yields are generally 75-95%. 

Boyes and Wild reported the manganese-mediated regioselective chlorination of allenes [14]. For the dichlorination of cyclo-l,2-nonadiene, the dichloride was obtained as the major product whereas the reaction of monosubstituted allene afforded a mixture of regiosomers of the dichlorination products with 2,3-dichloro-1-alkene 12 being the major one. The yield with oxalyl chloride is better than that with TMSC1. 

Chlorine, positive , iodometric determination of, 48, 5 reaction with 2-butyne, 46, 34 a-Chloroacetamide, reaction with oxalyl chloride to give a-chloroacetyl isocyanate, 46, 16... 

Replacement of the chlorine in 487b with isopropylamine is accomplished, then the secondary amine product is acylated with ethyl oxalyl chloride (Equation 184). Again reduction of the nitro group allows cyclization to 489 to occur <2001H(55)1963>. 

The action of phosphorus halides on pyrrolinones and related compounds offers an alternative route to chloropyrroles. Yields of around 60% of 2,5-dichloropyrroles were obtained in this way from N-substituted succinimides (82ZC126). Vilsmeier reaction of N-alkylsuccinimidals formed chlorinated pyrrole aldehydes in modest yields (90CJC791), and there are other examples [66YZ158 81H(15)547]. A useful synthesis of chloropyrrole-2-carboxylates employed the action of phosphorus pentachloride on pyrrolidin-2-one-5-carboxylates (40) (87CB45) (Scheme 15), and in a Pummerer-type reaction pyrrol-3-yl sulfoxides were transformed by thionyl chloride into chloropyrroles. Yields were increased to >80% by the use of oxalyl chloride (88JOC2634) (Scheme 15). 

Similar oxidation of alcohols has been carried out with dimethyl sulfoxide and other reagents317 in place of DCC acetic anhydride,318 SOy-pyridine-triethylamine,319 trifluo-roacetic anhydride,320 oxalyl chloride,321 tosyl chloride,322 chlorine,323 bromine,324 AgBF4-Et3N,325 P205-Et3N,326 phenyl dichlorophosphate,327 trichloromethyl chloroformate,328 tri-... 

In a detailed study on phosphonate diester and phosphonamidate synthesis, Hirschmann, Smith, and co-workers reported that pyrophosphonate anhydrides may be produced as side products during conversion of phosphonate monoesters into phosphonochloridates. 72 They recommended adding the phosphonate monoester to a solution of the chlorinating agent (thionyl chloride or oxalyl chloride) to minimize formation of the less reactive anhydrides. They also found that addition of tertiary amines (e.g., TEA) to the phosphonochloridates, prior to addition of the alcohol or amine component, results in formation of a phospho-nyltrialkylammonium salt that is more reactive than the corresponding phosphonochloridate and leads to better yields of the phosphonate esters and amides. 

During Swern oxidations, adventitious HC1 may be present either due to the use of impure oxalyl chloride, or due to the hydrolysis of some chlorine-containing chemical, caused by employing wet DMSO. Adventitious HC1 may cause acid-induced side reactions on sensitive substrates.174,246... 

Molecular halogens react with the thiones to give initially 1 1 adducts, formulated probably as 3-halothio-l,2-dithiolylium halides (42). For chlorine, these types convert to 3-chloro-1,2-dithiolylium salts (35a X = C1) (81AHC(23)i5l, 76PS(i)i85). Other more easily controlled halogen sources may be used, including thionyl chloride, oxalyl chloride, sulfur chloride and phosphorus oxychloride (70LA(742)103). A possible pathway for reaction with oxalyl chloride is shown in Scheme 19. 

The exocyclic chal cogen in 30 is displaced by direct chlorination,49,80 or preferably by the action of oxalyl chloride.11 The products are again (Section II,A,l,a) true 3-chloro-l,2-dithiolium salts (32), contrary to the original formulation, which involved two covalent C—Cl bonds (31). The range of application of this method and the yields obtained can be seen from Table III. 

Dimethyl snlfoxide-Oxalyl chloride, 8, 200. Swern and co-workers have suggested that the acutal oxidizing agent from DMSO and oxalyl chloride is 1, formed by almost instantaneous loss of CO2 and CO. This is also the reagent obtained by Corey and Kim from dimethyl sulfide and chlorine. (4, 191). 

The maiin domain of oxidation with dimethyl sulfoxide is the conver-sionofprimary alcoholsinto aldehydes andofsecondaryalcoholsintoketones. These reactions are accomplished under very mild conditions, sometimes at temperatures well below 0 °C. The reactions require the presence of acid catalysts such as acetic anhydride [713, 1008, 1009], trifluoroacetic acid [1010], trifluoroacetic anhydride [1011, 1012, 1013], trifluorometh-anesulfonic acid [1014], phosphoric acid [1015, 1016], phosphorus pentox-ide [1006, 1017], hydrobromic acid [1001], sulfur trioxide [1018], chlorine [1019, 1020], A -bromosuccinimide [997], carbonyl chloride (phosgene) [1021], and oxalyl chloride (the Swem oxidation) [1022, 1023, 1024], Dimethyl sulfoxide also converts sufficiently reactive halogen derivatives. into aldehydes or ketones [998, 999] and epoxides to a-hydroxy ketones at -78 °C [1014]. 

Cyclopropyl ketones have also been obtained by treating an acid with a chlorinating agent, such as oxalyl chloride s or thionyl chloride,followed by diarylcad-... 

Chlorine reacts with the thione function forming 3-chloro-l,2-dithioUum chlorides (56a). These are also obtained with thionyl chloride, oxalyl chloride, and phosphoryl chloride <70LA(742)103, 88BSFioi>. With bromine, products are formed whose reactions are consistent with 3-bromothio-... 

CHLORINATION OF SULFIDES OR SULFOXIDES Iodobenzene dichloride. CHLOROCA RBONYLATION Oxalyl chloride. 

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