135664-08-3Relevant academic research and scientific papers
Stereocontrol in palladium-catalyzed propargylic substitutions: Kinetic resolution to give enantioenriched 1,5-enynes and propargyl acetates
Ardolino, Michael J.,Eno, Meredith S.,Morken, James P.
supporting information, p. 3413 - 3419 (2013/12/04)
Kinetic resolution during the catalytic allyl-propargyl cross-coupling with chiral starting materials can be accomplished with a chiral palladium catalyst. These reactions offer ready access to enantiomerically enriched enyne products from simple, readily
Kinetic resolution of propargylic alcohols via stereoselective acylation catalyzed by lipase PS-30
Chen, Peiran,Zhu, Xiyin
, p. 184 - 188 (2013/10/01)
By using lipase PS-30 as catalyst, the kinetic resolution of a series of racemic propargylic alcohols has been achieved via stereoselective acylation. The value of kinetic enantiomeric ratio (E) reached up to 139. Substituent effect is briefly discussed.
Enantiocontrolled synthesis of 3-pyrrolines from α-amino allenes
Horvath, Attila,Benner, Jessica,Baeckvall, Jan-E.
, p. 3240 - 3243 (2007/10/03)
Cyclization of α-amino allenes in the presence of N-bromosuccinimide afforded pyrrolines in good yields. The products were obtained with high enantiomeric excesses when optically active allenes were used as substrates. The synthesis of a 2,5-dehydroprolinol derivative is also presented. Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2004.
Enantioselective esterifications of unsaturated alcohols mediated by a lipase prepared from Pseudomonas sp.
Burgess, Kevin,Jennings, Lee D.
, p. 6129 - 6139 (2007/10/02)
Competition experiments and measurements of enantioselectivities were used to develop a simple active-site model (Figure 1) for resolutions of β-hydroxy-α-methylene carbonyl compounds III via acyl transfers mediated by lipase from Pseudomonas sp. (AK). Further experiments were used to test and refine this model with respect to resolutions of allylic, propargylic, homopropargylic, and other alcohols (Tables I-IV, respectively). The model proved extremely reliable for predicting the sense of the asymmetric induction, and the combined data collected in this paper give an indication of what structural features of the substrates can be correlated with high enantioselectivities in these resolutions. Furthermore, the results account for the conspicuous reversal of enantioselectivity previously observed in resolutions of γ-hydroxy-α,β-unsaturated esters 35. Kinetic resolutions of two substrates (allenol 14 and dienol 9) via asymmetric epoxidations were performed for comparison with the methodology presented in this paper.
