2016
DOI: 10.1021/acs.accounts.6b00006
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Theory and Modeling of Asymmetric Catalytic Reactions

Abstract: Modern density functional theory and powerful contemporary computers have made it possible to explore complex reactions of value in organic synthesis. We describe recent explorations of mechanisms and origins of stereoselectivities with density functional theory calculations. The specific functionals and basis sets that are routinely used in computational studies of stereoselectivities of organic and organometallic reactions in our group are described, followed by our recent studies that uncovered the origins … Show more

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Cited by 174 publications
(132 citation statements)
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“…54,55 In special, organocatalyzed controlled enantioselectivity is a very active research field in the present time. [56][57][58][59][60][61] In the same direction, the thermodynamic of the reaction can be an important issue in the selectivity when the reaction ∆G is close to zero. 15 These properties may have a significative solvent effect, and the present approach is a viable method to test a high number of solvents (179 available in SMD) using modern workstations.…”
Section: Resultsmentioning
confidence: 99%
“…54,55 In special, organocatalyzed controlled enantioselectivity is a very active research field in the present time. [56][57][58][59][60][61] In the same direction, the thermodynamic of the reaction can be an important issue in the selectivity when the reaction ∆G is close to zero. 15 These properties may have a significative solvent effect, and the present approach is a viable method to test a high number of solvents (179 available in SMD) using modern workstations.…”
Section: Resultsmentioning
confidence: 99%
“…Subsequent DFT investigations (Gaussian16 (Revision A.03), [41] see SI) allowed modelling of the selectivitydetermining protonation step from 4 b:1 a to 10 in order to determine the origins of selectivity. [42] These calculations were performed on the optimised conditions in Table 2 (entry 6, 85 % ee), however the trifluoromethyl and pyrene groups of the catalyst were truncated to fluorines and phenyl, respectively, to reduce computational expense. Superimposition of the lowest energy conformations of catalyst 4 b and the model catalyst (RMSD = 0.095 over core atoms, see SI) indicates that these truncations do not significantly impact the conformation of the catalyst, and hence allow reasonable approximation of the full transition structures (TSs).…”
Section: Angewandte Chemiementioning
confidence: 99%
“…Jack Roberts pushed organic chemists in this direction in 1961, and now, we cannot only calculate Hückel MOs but even locate TSs of complex reactions and develop intimate understanding of them. Figure shows one of these TSs, for an aldol reaction catalyzed by a cinchona alkaloid derivative …”
Section: Physical Organic Chemistry In the Houk Labmentioning
confidence: 99%