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Synlett 2010(14): 2204-2205  
DOI: 10.1055/s-0030-1258020
SPOTLIGHT
© Georg Thieme Verlag Stuttgart ˙ New York

Bromotrichloromethane

Fanny Cros*
Laboratoire de Chimie Organique-Photochimie et Synthèse, Institut de Chimie et Biochimie Moléculaires et Supramoléculaires, UMR CNRS 5246, Université Claude Bernard Lyon 1, 69622 Villeurbanne, France
e-Mail: fanny.cros@gmail.com;

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Publikationsdatum:
16. August 2010 (online)

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Biographical Sketches

Fanny Cros was born in 1984 in Perpignan, France. She received a B.Sc. degree from the University of Montpellier II and after studying for two years at the University of Lyon 1, she obtained a DEA in organic chemistry (M.Sc. degree). She is currently carrying out her Ph.D. at the University of Lyon 1 under the supervision of Professor Olivier Piva. Her research interests focus on the application of tandem metathesis reactions for the synthesis of marine natural products.

Introduction

Readily synthesized by Meunier et al. [¹] in 1938, bromo­trichloromethane (BrCCl3) is a reagent of choice in organic synthesis. In recent years, many applications of this reagent have been reported. It can be used to synthesize esters, oxidize heterocycles, allow alkoxyl ring-closure reactions, perform α-bromination of sulfones, achieve radical addition on alkenes and radical cyclization of 1,6-dienes or synthesize dichloroalkenes. Some of these reactions were used at a final stage of complex total syntheses. Moreover, bromotrichloromethane is cheap, commercially available and stable at room temperature without any observed decomposition.

Abstracts

(A) Esterification is one of the most important reaction in organic synthesis. [²] Numerous methods have been reported, but few of them proceed under photolytic conditions. [³] Hwu et al. [4] developed a new atom-economy condensation between carboxylic acids and alcohols using BrCCl3 to furnish esters in high yields.

(B) The most common oxidizing method of thiazolines implies MnO2 under classical conditions [5a] or microwaves activation. [5b] The use of BrCCl3/DBU combination constitutes an efficient alternative way for this purpose. [6a] Recently, these conditions were applied in the final step of the total synthesis of largazole analogues. [6b] In some ­cases, due to lower yields with DBU, another base was required (NaOMe, t-BuOK, NaH or LDA). [7]

(C) The homolysis of the N-O bond of N-alkoxy thiazolethiones delivered an alkoxyl radical. This intermediate cyclized stereoselectively to give a carbon-centred tetrahydrofurylmethyl radical which was further trapped by BrCCl3 as a source of bromine atom. [8a] [b]

(D) Radical-anion radical pair reactions (RARP) allowed α-bromination of alkylphenyl sulfones in the presence of a KOH/t-BuOH mixture. [9] The products are formed in high yields and are stable under these reaction conditions.

(E) Nedelec and co-workers [¹0] reported the addition of the trichloromethyl radical to alkenes with moderate selectivities. More recently, the group of Mirzabekova developed a new method for generating this radical and the method was directly applied to the total synthesis of permethrinic acid. [¹¹]

(F) Homolytic cleavage of the metal-metal bond of [Mn2(CO)10] generates two manganese pentacarbonyl radicals which can perform hydrogen or halogen atom abstraction reactions. [¹²a] In the presence of bromotrichloromethane, bromine atom transfer reactions can also be carried out on 1,6-dienes. [¹²b]

(G) gem-Dichloroolefins are valuable products in organic synthesis. Nenajdenko et al. [¹³] developed a convenient olefination method for the synthesis of dichloroalkenes from hydrazones using BrCCl3 and in the presence of CuCl as catalyst.

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