60456-13-5Relevant academic research and scientific papers
Alkoxybromination of olefins using ammonium bromide and oxone
Kumar, Macharla Arun,Naresh, Mameda,Rohitha, Chozhiyath Nappunni,Narender, Nama
supporting information, p. 3121 - 3129 (2014/01/06)
A mild, efficient, and highly regio- and stereoselective method for the methoxy and ethoxy bromination of olefins has been developed using NH 4Br as a bromine source and Oxone as an oxidant. Various kinds of olefins (aromatic, linear, and cyclic olefins) afforded the corresponding alkoxy brominated products in moderate to excellent yields. Taylor & Francis Group, LLC.
A regioselective and stereoselective methoxy bromination of olefins using diacetoxyiodobenzene and phenyltrimethyl ammoniumtribromide
Hangirgekar,Shirodkar
experimental part, p. 179 - 184 (2012/01/13)
A facile regio and stereoselective methoxy-bromination of alkenes using phenyltrimethyl ammoniumtribromide (PTAB) and (diacetoxyiodo) benzene (DIB) as oxidant has been carried out in the present investigation. The IR, NMR and LCMS of all the synthesized compounds have been used to characterize them.
Organocatalysis in the stereoselective bromohydrin reaction of alkenes
Bar, Sukanta
experimental part, p. 605 - 612 (2010/08/21)
An efficient regio- and stereo-selective (>99:1) trans-bromohydrination (bromohydroxylation and bromomethoxylation) of alkenes including α,β-unsaturated carbonyl compounds with N-bromosuccinimide (NBS) has been achieved by using 1.0 mol% of N,N'-diarylthi
Comparative study of the vicinal functionalization of olefins with 2:1 bromide/bromate and iodide/iodate reagents
Agrawal, Manoj K.,Adimurthy, Subbarayappa,Ganguly, Bishwajit,Ghosh, Pushpito K.
experimental part, p. 2791 - 2797 (2009/08/08)
A comparative evaluation was made on the syntheses of vicinal halohydrins, halo methyl ethers, and halo acetates from olefins using 2:1 Br-/BrO3- and I-/IO3- reagents. In many cases both reagents afforded products selectively in high yields. The highest halogen atom efficiencies attained were 97% and 93% for Br-/BrO3- and I-/IO3-, respectively. Of the two reagents, I-/IO3- was established to be the preferred reagent for vicinal functionalization of linear alkenes and also for halo acetate preparation. However, only Br-/BrO3- was effective for vicinal functionalization of trans-stilbene and chalcones.
NaIO4-Mediated Selective Oxidative Halogenation of Alkenes and Aromatics Using Alkali Metal Halides
Dewkar, Gajanan K.,Narina, Srinivasarao V.,Sudalai, Arumugam
, p. 4501 - 4504 (2007/10/03)
(Equation presented) NaIO4 oxidizes alkali metal halides efficiently in aqueous medium to halogenate alkenes and aromatics and produce the corresponding halo derivatives in excellent regio and stereoselectivity. The system also demonstrates the asymmetric version of bromo hydroxylation using β-cyclodextrin complexes, resulting in moderate ee.
Stereoselective radical carbon-carbon bond forming reactions of β-alkoxy esters: Atom and group transfer allylations under bidentate chelation controlled conditions
Guindon,Guérin,Chabot,Ogilvie
, p. 12528 - 12535 (2007/10/03)
The radical allylation of a series of β-alkoxy esters using allyltrimethylsilane in the presence of MgBr2·OEt2 is described. Under bidentate chelation-controlled conditions, allyltrimethylsilane rivals allyltributyltin in efficiency
Mechanism of Dehydroacetoxylation of Methyl 3-Acetoxy-3-aryl-2-halogenopropanoates
Cabaleiro, Mercedes C.,Garay, Raul O.
, p. 1091 - 1096 (2007/10/02)
The rate of sodium methoxide-induced dehydroacetoxylation of the diesters p-RC6H4CH(OAc)CXHCO2Me (X= Br or Cl) has been studied as a function of the para-substituent.The results correspond to the para-substituent effects expected for proton abstraction from C-2, as estimated from the diastereoisomerisation of model compounds under similar conditions.This suggests that the elimination occurs via a carbanion mechanism, with C(2)-H bond-breaking rate-determining.The apparent insensitivity of the kinetic behaviour to configuration differences, together with the response of the reactions to the effect of the 3-substituent, is interpreted in terms of inductive stabilisation by the 2-halogen atom, which tends to localise the incipient negative charge at C-2, inhibiting distortion of its tetrahedral geometry.
