Halides sulfonyl

Azoles containing a free NH group react comparatively readily with acyl halides. N-Acyl-pyrazoles, -imidazoles, etc. can be prepared by reaction sequences of either type (66) -> (67) or type (70)->(71) or (72). Such reactions have been carried out with benzoyl halides, sulfonyl halides, isocyanates, isothiocyanates and chloroformates. Reactions occur under Schotten-Baumann conditions or in inert solvents. When two isomeric products could result, only the thermodynamically stable one is usually obtained because the acylation reactions are reversible and the products interconvert readily. Thus benzotriazole forms 1-acyl derivatives (99) which preserve the Kekule resonance of the benzene ring and are therefore more stable than the isomeric 2-acyl derivatives. Acylation of pyrazoles also usually gives the more stable isomer as the sole product (66AHCi6)347). The imidazole-catalyzed hydrolysis of esters can be classified as an electrophilic attack on the multiply bonded imidazole nitrogen. 

Reactive structures that interfere with the biochemical assay (aldehydes, acyl-halides, sulfonyl-halides, Michael acceptors, epoxides, aziridines, oximes, N-oxides). 

Azoles containing a free NH group react comparatively readily with acyl halides. yV-Acyl-pyrazoles, -imidazoles, etc. can be prepared by reaction sequences of either type (75) — (76) or type (79)—>(80) or (81). Such reactions have been carried out with benzoyl halides, sulfonyl halides, isocyanates, isothiocyanates and chloroformates. Reactions occur under Schotten-Baumann conditions or in inert solvents. 

The saltlike alkali metal compounds of indole react with electrophiles such as haloalkanes, acyl halides, sulfonyl halides and trimethylchlorosilane to form the corresponding 1-substituted indoles. 1-Benzylindole isomerizes to 2-benzylindole when heated in polyphosphoric acid [47]. 1-Phenyl-sulfonylindole is lithiated in the 2-position by n-butyllithium. Subsequent alkylation with haloalkanes and cleavage of the phenylsulfonyl residue with sodium hydroxide yields 2-alkylindole. 

Acyl halides, sulfonyl halides, and anhydrides react readily with water, alcohols, and amines. They should neva-be allowed to come into contact with waste that contains such substances. Most compounds in this class can be hydrolyzed to water-soluble products of low toxicity. 

Tertiary alkyl halides are better initiators than secondary hahdes, which, in turn, are better than primary alkyl halides. Sulfonyl chlorides also provide faster initiation than propagaion. 

The main synthetic applications of sulfonyl radicals are based on the ability of these species to add to double and triple carbon-carbon bonds 197]. A large variety of sulfonyl radical precursors can be used including sulfonyl halides, sulfonyl cyanides, and sulfonyl thiocyanates. During the past decade the addition of selenosulfonates has been widespread. Meanwhile, the development of methodologies involving the oxidation of sulfinates has opened the way to new kinds of adducts resulting from oxidative termination. 

Pyrrolyl-U, -Na, and -K give 1-substituted pyrroles with haloalkanes, acyl halides, sulfonyl halides, chlorotrialkylsilanes, and chlorotrialkylstannanes. Pyrrole itself (and likewise indole) can be directly alkylated, acylated, or sulfonylated on nitrogen using (BMIM]OH as catalyst and green solvent [106]. 

ALkah-metal compounds of indole undergo reactions with haloalkanes, acyl halides, sulfonyl halides, and trialkylchlorosilanes to give the corresponding 1-substituted indoles 30 ... 

X = halide, acyl halide, sulfonyl halide, bridgehead hydroxyl, etc. 

Aromatic acyl halides and sulfonyl halides undergo oxidative addition, followed by facile elimination of CO and SO2 to form arylpalladium complexes. Benzenediazonium salts are the most reactive source of arylpalladium complexes. 

It has been reported that the reactions of 2-aminothiazoles and sulfonyl halides generally afford mono sulfonyl and disulfonyl (171) compounds (Scheme 109) (355-362). Angyal (358) explained this result by a mechanism where in. the first reaction the product would be the cation (172)... 

Mercapto-imida2oliuin inner salts have been reported to rearrange under the influence of hydrochloric acid, producing S-aminothiazolium chlorides (Scheme 25) (36). Their N-acylated derivatives are obtained by cyclization of N-thiobenzoyl alkylaminoacetonitriles, effected with acyl or sulfonyl halides (Scheme 26) (34, 35). 

An advantage that sulfonate esters have over alkyl halides is that their prepara tion from alcohols does not involve any of the bonds to carbon The alcohol oxygen becomes the oxygen that connects the alkyl group to the sulfonyl group Thus the configuration of a sulfonate ester is exactly the same as that of the alcohol from which It was prepared If we wish to study the stereochemistry of nucleophilic substitution m an optically active substrate for example we know that a tosylate ester will have the same configuration and the same optical purity as the alcohol from which it was prepared... 

Pyrimidine-2-sulfonyl chloride, 4,6-dimethyl-reactions, 3, 97 Pyrimidinesulfonyl halides reactions, 3, 97 Pyrimidinethiols S-acylation, 3, 95 S-alkylation, 3, 94 oxidation, 3, 94 synthesis, 3, 135 Pyrimidine-5-thiols oxidation, 3, 94 synthesis, 3, 136... 

Whereas sulfonyl halides have been known for a long time and, especially the chlorides, have become of great synthetic value, sulfonyl cyanides were unknown until 1968. They were first prepared by van Leusen and co-workers from the reaction of sulfonylmethylenephos-phoranes with nitrosyl chloride. The same group also investigated part of their chemistry. Since then, two more, completely different, methods of synthesis were published from sulfinates with cyanogen chloride,and by the oxidation of thiocyanates. ... 

Sulfonate esters are especially useful substrates in nucleophilic substitution reactions used in synthesis. They have a high level of reactivity, and, unlike alkyl halides, they can be prepared from alcohols by reactions that do not directly involve bonds to the carbon atom imdeigoing substitution. The latter aspect is particularly important in cases in which the stereochemical and structural integrity of the reactant must be maintained. Sulfonate esters are usually prepared by reaction of an alcohol with a sulfonyl halide in the presence of pyridine ... 

Oxidation of 2-mercapto-l,2,4-triazolo[l,5-c]pyrimidines (174) with chlorine or bromine in water (64BRP951652 65JCS3369), with hydrogen peroxide and chlorine (95MIP1), as well as with sodium chlorate in hydrochloric acid (94JMC2371) gave the corresponding 2-sulfonyl halide derivatives 175. Oxidation of the 2-alkylmercapto compounds 176 to the 2-alkylsufonyl derivatives 177 was made with ammonium peroxodisulfate and sulfuric acid... 

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