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DOI: 10.1055/s-0029-1217623
DABAL-Me3: A Versatile Methylating Agent
Publikationsverlauf
Publikationsdatum:
23. Juli 2009 (online)
Biographical Sketches
Introduction
DABAL-Me3 is a very suitable, easy to use reagent to methylate a variety of functional groups like aldehydes, imines, enones, amides, etc. Although trimethyl aluminium has been traditionally used as a methylating agent, its pyrophoric nature stands as a major obstacle in its sustainability. Several other Me3Al˙NR3 species such as Me3Al˙pyridine, Me3Al˙TMEDA (tetramethyletyhylenediamine) are also reported, but they are too reactive to be used under normal laboratory conditions. DABAL-Me3, which is actually a 2:1 complex of Me3Al and DABCO, is free from these shortcomings as it can be manipulated without the need for an inert atmosphere. [¹] [²]
DABAL-Me3 can be prepared by adding neat AlMe3 to freshly sublimed DABCO in toluene at 0 ˚C. The white precipitate is separated from toluene and washed several times with diethyl ether. [³] The versatility of the reagent can be easily assessed by its capability to methylate a wide variety of substrates.
Abstracts
(A) Woodward and co-workers reported the first assymmeytric synthesis of secondary alchohols from prochiral aldehydes in the presence of nickel(acetylacetone)2 and a phosphoroamidite ligand. [³] | |
(B) Methylation of aryl and vinyl halides is another example of a very efficient route of forming C-C bonds. DABAL-Me3 is quite capable of carrying out this transformation. [4] | |
(C) In pursuance of developing a suitable route for addition of an alkyl group to different Michael acceptors, Woodward and co-workers used DABAL-Me3 in an enantioselective manner employing appropriate ligands. [5] | |
(D) Direct formation of amides from the corresponding inactivated esters and lactones can be conveniently carried out with DABAL-Me3 excluding the risk of using other pyrophoric AlR3 reagents. [6] Woodward and co-workers later utilized microwave irradiation in DABAL-Me3-mediated amide bond formation in order to carry out the reaction in a shorter span of time. [7] |
- 1
Bradford AM.Bradley DC.Hursthouse MB.Motevalli M. Organometallics 1992. 11 p., 111 - 2
Woodward S. Synlett 2007, 1490 - 3
Biswas K.Prieto O.Goldsmith PJ.Woodward S. Angew. Chem. Int. Ed. 2005, 44: 2232 - 4
Cooper T.Novak A.Humphreys LD.Walker MD.Woodward S. Adv. Synth. Catal. 2006, 348: 686 - 5
Alexakis A.Albrow V.Bisaws K.d’Augustin M.Prieto O.Woodward S. Chem. Commun. 2005, 2843 - 6
Novak A.Humphreys LD.Walker MD.Woodward S. Tetrahedron Lett. 2006, 47: 5767 - 7
Glynn D.Bernier D.Woodward S. Tetrahedron Lett. 2008, 49: 5687
References
- 1
Bradford AM.Bradley DC.Hursthouse MB.Motevalli M. Organometallics 1992. 11 p., 111 - 2
Woodward S. Synlett 2007, 1490 - 3
Biswas K.Prieto O.Goldsmith PJ.Woodward S. Angew. Chem. Int. Ed. 2005, 44: 2232 - 4
Cooper T.Novak A.Humphreys LD.Walker MD.Woodward S. Adv. Synth. Catal. 2006, 348: 686 - 5
Alexakis A.Albrow V.Bisaws K.d’Augustin M.Prieto O.Woodward S. Chem. Commun. 2005, 2843 - 6
Novak A.Humphreys LD.Walker MD.Woodward S. Tetrahedron Lett. 2006, 47: 5767 - 7
Glynn D.Bernier D.Woodward S. Tetrahedron Lett. 2008, 49: 5687