Journal
ADVANCED SYNTHESIS & CATALYSIS
Volume 363, Issue 9, Pages 2371-2376Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adsc.202001170
Keywords
Allylboration; Boron; Silicon; Chemoselectivity; Enantioselectivity
Categories
Funding
- National Research Foundation of Korea - Korean government [NRF2018R1 A4 A1024713, NRF2019 M1 A2 A2067940]
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This study describes the kinetic resolution of alpha-silyl-substituted allylboronate esters via chiral phosphoric acid-catalyzed allylboration of aldehydes, providing enantioenriched compounds with high selectivity factors. The proposed reaction mechanism involves a closed chair-like transition state, allowing for the easy resolution of alpha-silyl-substituted allylboronate esters. The obtained enantioenriched compounds show synthetic utility by being able to undergo further transformations to yield a diverse set of enantioenriched molecules.
We describe the kinetic resolution of alpha-silyl-substituted allylboronate esters via chiral phosphoric acid-catalyzed chemo-, diastereo- and enantioselective allylboration of aldehydes. This process provides two synthetically versatile enantioenriched compounds, (Z)-delta-silyl-substituted anti-homoallylic alcohols and alpha-silyl-substituted allylboronate esters, with a selectivity factor up to 328. We propose that the reaction proceeds through a closed chair-like transition state with the silane moiety occupying a pseudo-axial position, thus readily resolving alpha-silyl-substituted allylboronate esters. The synthetic utility of the obtained enantioenriched compounds is highlighted by their further transformations to give a diverse set of enantioenriched molecules.
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