Scope and Mechanism of Tandem Aza-Michael Reaction/Enantioselective Protonation Using a Pd-μ-Hydroxo Complex under Mild Conditions Buffered with Amine Salts

The tandem aza‐Michael reaction/enantioselective protonation of α‐substituted α,β‐unsaturated carbonyl compounds is described in detail. The key to success is the combined use of a Brønsted basic palladium–μ‐hydroxo complex and amine salts, which allows for the controlled generation of active cataly...

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Published in:Chemistry, an Asian journal an Asian journal, 2011-02, Vol.6 (2), p.658-668
Main Authors: Hamashima, Yoshitaka, Suzuki, Shoko, Tamura, Toshihiro, Somei, Hidenori, Sodeoka, Mikiko
Format: Article
Language:English
Subjects:
Amines - chemistry
amino acids
Amino Acids - chemical synthesis
Amino Acids - chemistry
asymmetric catalysis
Chemistry
Hydrogenation
Michael addition
palladium
Palladium - chemistry
protonation
Protons
Salts - chemistry
Stereoisomerism
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cited_by cdi_FETCH-LOGICAL-c3400-b92755bc5c9befbb28c3e9f899bbc2377fc4834203ea3bcb61732665612d5f113
cites cdi_FETCH-LOGICAL-c3400-b92755bc5c9befbb28c3e9f899bbc2377fc4834203ea3bcb61732665612d5f113
container_end_page 668
container_issue 2
container_start_page 658
container_title Chemistry, an Asian journal
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creator Hamashima, Yoshitaka
Suzuki, Shoko
Tamura, Toshihiro
Somei, Hidenori
Sodeoka, Mikiko
description The tandem aza‐Michael reaction/enantioselective protonation of α‐substituted α,β‐unsaturated carbonyl compounds is described in detail. The key to success is the combined use of a Brønsted basic palladium–μ‐hydroxo complex and amine salts, which allows for the controlled generation of active catalyst and nucleophilic free amines. This catalytic system was applicable to various acceptors and aromatic amines, and the desired β‐amino acid derivatives with a chiral center at the α position were produced in good yield with excellent enantioselectivity (up to 98 % ee). For electron‐deficient amines, the introduction of free amine as an additive was effective in promoting the reaction. The results of mechanistic studies, including determination of the absolute configuration of the product, are discussed. Salt‐controlled reaction: The tandem aza‐Michael reaction/enantioselective protonation of α‐substituted α,β‐unsaturated carbonyl compounds is described in detail. The combined use of chiral palladium complex 1 and amine salts was critical to obtain α‐substituted β‐amino carbonyl compounds with high enantioselectivity (see scheme).
doi_str_mv 10.1002/asia.201000740
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subjects Amines - chemistry
amino acids
Amino Acids - chemical synthesis
Amino Acids - chemistry
asymmetric catalysis
Chemistry
Hydrogenation
Michael addition
palladium
Palladium - chemistry
protonation
Protons
Salts - chemistry
Stereoisomerism
title Scope and Mechanism of Tandem Aza-Michael Reaction/Enantioselective Protonation Using a Pd-μ-Hydroxo Complex under Mild Conditions Buffered with Amine Salts
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