Exploiting the Imidazolium Effect in Base-free Ammonium Enolate Generation: Synthetic and Mechanistic Studies

Claire M Young¹, Daniel G Stark¹, Thomas H West¹, James E Taylor¹, Andrew D Smith²

Affiliations

¹ EaStCHEM, School of Chemistry, University of St Andrews, North Haugh, St Andrews, Fife, KY16 9ST, UK.
² EaStCHEM, School of Chemistry, University of St Andrews, North Haugh, St Andrews, Fife, KY16 9ST, UK. ads10@st-andrews.ac.uk.

PMID: 27762045
DOI: 10.1002/anie.201608046

Exploiting the Imidazolium Effect in Base-free Ammonium Enolate Generation: Synthetic and Mechanistic Studies

Claire M Young et al. Angew Chem Int Ed Engl. 2016.

. 2016 Nov 7;55(46):14394-14399.

doi: 10.1002/anie.201608046. Epub 2016 Oct 20.

Authors

Claire M Young¹, Daniel G Stark¹, Thomas H West¹, James E Taylor¹, Andrew D Smith²

Affiliations

¹ EaStCHEM, School of Chemistry, University of St Andrews, North Haugh, St Andrews, Fife, KY16 9ST, UK.
² EaStCHEM, School of Chemistry, University of St Andrews, North Haugh, St Andrews, Fife, KY16 9ST, UK. ads10@st-andrews.ac.uk.

PMID: 27762045
DOI: 10.1002/anie.201608046

Abstract

N-Acyl imidazoles and catalytic isothiourea hydrochloride salts function as ammonium enolate precursors in the absence of base. Enantioselective Michael addition-cyclization reactions using different α,β-unsaturated Michael acceptors have been performed to form dihydropyranones and dihydropyridinones with high stereoselectivity. Detailed mechanistic studies using RPKA have revealed the importance of the "imidazolium" effect in ammonium enolate formation and have highlighted key differences with traditional base-mediated processes.

Keywords: Michael addition; N-acyl imidazoles; imidazolium effect; isothiourea catalysis; mechanistic study.

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Exploiting the Imidazolium Effect in Base-free Ammonium Enolate Generation: Synthetic and Mechanistic Studies

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Exploiting the Imidazolium Effect in Base-free Ammonium Enolate Generation: Synthetic and Mechanistic Studies

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