Theoretical study on the mechanism of the reaction for alkene hydroaminations catalyzed by chiral aldehyde

Zhao, Jinfeng; Sun, Chuanzhi; Sun, Nan; Lin, Meng; Chen, Dezhan

doi:10.1002/qua.24483

Cited by 3 publications

(1 citation statement)

References 44 publications

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“…In this study, we chose the Lewis acid‐catalyzed transesterification of methyl β‐oxodithioester ( R1 , depicted in Scheme ) with 1‐butanol ( R2 , depicted in Scheme ) to generate n ‐butyl β‐oxothionoester ( P1 , depicted in Scheme ) and methanethiol ( P2 , depicted in Scheme ) as our research subject. The density functional theory (DFT) approach (which has been widely used in the study of reaction mechanisms) was also used to investigate the detailed reaction mechanisms. Moreover, to understand the functions of these two Lewis acid catalysts better, global reactivity indexes (GRI) and natural bond orbital (NBO) charge analyses were also performed.…”

Section: Introductionmentioning

confidence: 99%

A density functional theory study on lewis acid‐catalyzed transesterification of β‐oxodithioesters

Guo

Chen

Zhu

et al. 2014

Int J of Quantum Chemistry

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The detailed mechanisms of the Lewis acid-catalyzed transesterification of b-oxodithioesters at a solvent-free condition were studied using density functional theory. Five possible reaction pathways, including one noncatalyzed (channel 1) and four Lewis acid-catalyzed channels (SnCl 2 -catalyzed channels 2 and 3 and SnCl 2 Á2H 2 O-catalyzed channels 4 and 5), were investigated. Our calculated results indicate that the energy barriers of the catalyzed channels are significantly lower than that of channel 1. Channel 5, which has an energy barrier of 33.70 kcal/mol as calculated at the B3LYP/ [6-31G(d, p)1LANL2DZ] level, is the most energy-favorable channel. Moreover, one water molecule of SnCl 2 Á2H 2 O par-ticipated in the transesterification in channel 5. Thus, we report a novel function of the SnCl 2 Á2H 2 O catalyst, which is quite different from the function of the conventional nonhydrated Lewis acid SnCl 2 . To understand the function of these two Lewis acid catalysts better, the global reactivity indexes and natural bond orbital charge were analyzed. This work helps in understanding the function of the Lewis acid in transesterification, and it can provide valuable insight for the rational design of new Lewis acid catalysts.

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Section: Introductionmentioning

confidence: 99%

A density functional theory study on lewis acid‐catalyzed transesterification of β‐oxodithioesters

Guo

Chen

Zhu

et al. 2014

Int J of Quantum Chemistry

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Addition Reactions: Polar Addition

Kočovský¹

2016

Organic Reaction Mechanisms · 2013

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Dual Role of Pyrrolidine and Cooperative Pyrrolidine/Pyrrolidinium Effect in Nitrone Formation

et al. 2015

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The formation of nitrones by direct condensation between equimolecular amounts of N-substituted hydroxylamine hydrochlorides and aromatic or aliphatic aldehydes is efficiently promoted by pyrrolidine in a matter of minutes under very mild conditions in almost quantitative yields after a simple filtration through a short pad of silica gel. According to theoretical, spectroscopic, and experimental studies, this success is due to the ability of pyrrolidine to liberate the hydrochloride of the hydroxylamine and catalyze the reaction via iminium activation ion. Moreover, a cooperative pyrrolidine/pyrrolidinium chloride effect facilitates several steps of the catalytic cycle through proton transfer without hampering the nucleophilicity of the hydroxylamine by protonation.

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Theoretical study on the mechanism of the reaction for alkene hydroaminations catalyzed by chiral aldehyde

Cited by 3 publications

References 44 publications

A density functional theory study on lewis acid‐catalyzed transesterification of β‐oxodithioesters

A density functional theory study on lewis acid‐catalyzed transesterification of β‐oxodithioesters

Addition Reactions: Polar Addition

Dual Role of Pyrrolidine and Cooperative Pyrrolidine/Pyrrolidinium Effect in Nitrone Formation

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