Sulfonyl halide

Sulfonyl chlorides

Sulfonic acid chlorides, or sulfonyl chlorides, are a sulfonyl halide with the general formula .

Production

Arylsulfonyl chlorides are made industrially in a two-step, one-pot reaction from an arene (in this case, benzene) and chlorosulfuric acid: : : The intermediate benzenesulfonic acid can be chlorinated with thionyl chloride as well. Benzenesulfonyl chloride, the most important sulfonyl halide, can also be produced by treating sodium benzenesulfonate with phosphorus pentachlorides.

Benzenediazonium chloride reacts with sulfur dioxide and copper(I) chloride to give the sulfonyl chloride: :

For alkylsulfonyl chlorides, one synthetic procedure is the Reed reaction: :

Reactions

Sulfonyl chlorides react with water to give the corresponding sulfonic acid: :

These compounds react readily with many other nucleophiles as well, most notably alcohols and amines (see Hinsberg reaction). If the nucleophile is an alcohol, the product is a sulfonate ester; if it is an amine, the product is a sulfonamide: :

However, sulfonyl chlorides also react frequently as a source of RSO and Cl+. For example benzenesulfonyl chloride chlorinates ketene acetals and mesyl chloride chlorinates para-xylene under Friedel-Crafts conditions. Using sodium sulfite as the nucleophilic reagent, p-toluenesulfonyl chloride is converted to its sulfinate salt, . Chlorosulfonated alkanes are susceptible to crosslinking via reactions with various nucleophiles.

Sulfonyl chlorides readily undergo Friedel–Crafts reactions with arenes giving sulfones, for example: :

A readily available arylsulfonyl chloride source is tosyl chloride. The desulfonation of arylsulfonyl chlorides provides a route to aryl chlorides: : 1,2,4-Trichlorobenzene is made industrially in this way.

Treatment of alkanesulfonyl chlorides having α-hydrogens with amine bases can give sulfenes, highly unstable species that can be trapped: :

Reduction with tetrathiotungstate ions () induces dimerization to the disulfide.

Common sulfonyl chlorides

Chlorosulfonated polyethylene (CSPE) is produced industrially by chlorosulfonation of polyethylene. CSPE is noted for its toughness, hence its use for roofing shingles.

An industrially important derivative is benzenesulfonyl chloride. In the laboratory, useful reagents include tosyl chloride, brosyl chloride, nosyl chloride and mesyl chloride.

Sulfonyl fluorides

Sulfonyl fluorides have the general formula RSO2F. They can be produced by treating sulfonic acids with sulfur tetrafluoride: :

Perfluorooctanesulfonyl derivatives, such as PFOS, are produced from their sulfonyl fluoride, which are produced by electrofluorination

In the molecular biology, sulfonyl fluorides are used to label proteins. They specifically react with serine, threonine, tyrosine, lysine, cysteine, and histidine residues. The fluorides are more resistant than the corresponding chlorides and are therefore better suited to this task.

Some sulfonyl fluorides can also be used as deoxyfluorinating reagents, such as 2-pyridinesulfonyl fluoride (PyFluor) and N-tosyl-4-chlorobenzenesulfonimidoyl fluoride (SulfoxFluor).

Sulfonyl bromides

Sulfonyl bromides have the general formula RSO2Br. In contrast to sulfonyl chlorides, sulfonyl bromides readily undergo light-induced homolysis affording sulfonyl radicals, which can add to alkenes, as illustrated by the use of bromomethanesulfonyl bromide, BrCH2SO2Br in Ramberg–Bäcklund reaction syntheses.

Sulfonyl iodides

Sulfonyl iodides, having the general formula RSO2I, are quite light-sensitive. Methanesulfonyl iodide evolves iodine in vacuum and branched-alkyl sulfonyl iodides are worse. Perfluoroalkanesulfonyl iodides, prepared by reaction between silver perfluoroalkanesulfinates and iodine in dichloromethane at −30 °C, react with alkenes to form the normal adducts, RFSO2CH2CHIR and the adducts resulting from loss of SO2, RFCH2CHIR.

Arenesulfonyl iodides, prepared from reaction of arenesulfinates or arenehydrazides with iodine, are much more stable Their reduction with silver gives the disulfone: :2 ArSO2I + 2Ag → (ArSO2)2 + 2 AgI

In popular culture

In the episode "Encyclopedia Galactica" of his TV series Cosmos: A Personal Voyage, Carl Sagan speculates that some intelligent extraterrestrial beings might have a genetic code based on polyaromatic sulfonyl halides instead of DNA.

References

References

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