Hunsdiecker reaction

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Template:Short description Template:Reactionbox The Hunsdiecker reaction (also called the Borodin reaction or the Hunsdiecker–Borodin reaction) is a name reaction in organic chemistry whereby silver salts of carboxylic acids react with a halogen to produce an organic halide.[1] It is an example of both a decarboxylation and a halogenation reaction as the product has one fewer carbon atoms than the starting material (lost as carbon dioxide) and a halogen atom is introduced its place.[2][3] A catalytic approach has been developed.[4]

The Hunsdiecker reaction

History

The reaction is named after Cläre Hunsdiecker and her husband Heinz Hunsdiecker, whose work in the 1930s[5][6] developed it into a general method.[1]

The reaction was first demonstrated by Alexander Borodin in 1861 in his reports of the preparation of methyl bromide (Template:Chem2) from silver acetate (Template:Chem2).[7][8]

Three decades later, Angelo Simonini, working as a student of Adolf Lieben at the University of Vienna, investigated the reactions of silver carboxylates with iodine.[2] He found that the products formed are determined by the stoichiometry within the reaction mixture. Using a carboxylate-to-iodine ratio of 1:1 leads to an alkyl iodide product, in line with Borodin's findings and the modern understanding of the Hunsdiecker reaction. However, a 2:1 ratio favours the formation of an ester product that arises from decarboxylation of one carboxylate and coupling the resulting alkyl chain with the other.[9][10]

The Simonini reaction

Using a 3:2 ratio of reactants leads to the formation of a 1:1 mixture of both products.[9][10] These processes are sometimes known as the Simonini reaction rather than as modifications of the Hunsdiecker reaction.[2][3]

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Reaction mechanism

In terms of reaction mechanism, the Hunsdiecker reaction is believed to involve organic radical intermediates. The silver salt 1 reacts with bromine to form the acyl hypohalite intermediate 2. Formation of the diradical pair 3 allows for radical decarboxylation to form the diradical pair 4, which recombines to form the organic halide 5. The trend in the yield of the resulting halide is primary > secondary > tertiary.[2][3]

Radicalic mechanism of Hunsdiecker reaction

Variations

The reaction cannot be performed in protic solvents, as these induce decomposition of the intermediate acetyl hypohalite.Script error: No such module "Unsubst".

Other counterions than silver typically have slow reaction rates. The relativistic metals mercury, thallium, and lead are preferred: inert counterions, such as the alkali metals, have only rarely led to reported success.[11]Template:Rp The Kochi reaction is a variation on the Hunsdiecker reaction developed by Jay Kochi that uses lead(IV) acetate and lithium chloride (lithium bromide can also be used) to effect the halogenation and decarboxylation.[12]

The Kochi reaction
The Kochi reaction

In the presence of multiple bonds, the intermediate acetyl hypohalite prefers to add to the bond, producing an α-haloester. Steric considerations suppress this tendency in α,β-unsaturated carboxylic acids, which instead polymerize (see below).[11]Template:Rp

Mercuric oxide and bromine convert 3-chlorocyclobutanecarboxylic acid to 1-bromo-3-chlorocyclobutane. This is known as Cristol-Firth modification.[13][14][15] The 1,3-dihalocyclobutanes were key precursors to propellanes.[16] The reaction has been applied to the preparation of ω-bromo esters with chain lengths between five and seventeen carbon atoms, with the preparation of methyl 5-bromovalerate published in Organic Syntheses as an exemplar.[17]

Reaction with α,β-unsaturated carboxylic acids

File:Microwave-Induced Hunsdiecker Rxn with NXS.png
Synthesis of β-arylvinyl halide by microwave-induced Hunsdiecker reaction.

For unsaturated compounds, the radical conditions associated with the Hunsdiecker reaction can also induce polymerization instead of decarboxylation.[11]Template:Rp Consequently, reactions with α,β-unsaturated carboxylic acids typically give low yield.[18] Kuang et al have found that an alternate radical halogenating agent, N-halosuccinimide, combined with a lithium acetate catalyst, gives a higher yield of β-halostyrenes. The reaction also improves in the presence of microwave irradiation, which preferentially synthesizes (E)-β-arylvinyl halides.[19]

For a green metal-free reaction, tetrabutylammonium trifluoroacetate serves as an alternative catalyst.[20] However, it only exhibits comparable yields to the original lithium acetate when performed with micellular surfactants.[19][21][22]

See also

References

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External links

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