Alkene Isomerisation Catalysed by a Superbasic Sodium Amide

Author:

Tortajada Andreu1ORCID,Righetti Gian Luca1,McGinley Ana2,Mu Manting2ORCID,García‐Melchor Max2ORCID,Hevia Eva1ORCID

Affiliation:

1. Department für Chemie Biochemie und Pharmacie Universität Bern Freiestrasse 3 3012 Bern Switzerland

2. School of Chemistry CRANN and AMBER Research Centres Trinity College Dublin College Green Dublin 2 Ireland

Abstract

AbstractTypically catalysed by transition metals, alkene isomerisation is a powerful methodology for preparation of internal olefins. In contrast, the use of more earth abundant main group reagents is limited to activated substrates, requiring high temperatures and excess stoichiometric amounts. Opening a new avenue for progressing this field, here we report applications of bulky sodium amide NaTMP (TMP=2,2,6,6‐tetramethylpiperidide) when partnered with tridentate Lewis donor PMDETA (N,N,N′,N′′,N’’‐pentamethyldiethylenetriamine) in catalytic alkene isomerisation of terminal olefins under mild reaction conditions. An array of distinct olefins could successfully be isomerised, including unactivated olefins, allylamines, and allylethers, showing the high activity of this partnership. In‐depth mechanistic insights provided by X‐ray crystallography, real‐time nuclear magnetic resonance (NMR) monitoring, and density functional theory (DFT) calculations have unveiled the crucial role of in situ‐generated TMP(H) in facilitating efficient isomerisation, and the choice of alkali‐metal. Additionally, theoretical studies shed light on the observed E/Z selectivity, particularly accounting for the selective formation of Z‐vinyl ethers. The versatility of our method is further demonstrated through the isomerisation of unactivated cycloalkenes, which undergo hydrogen isotope exchange to produce deuterated compounds.

Funder

Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung

Irish Research Council

Publisher

Wiley

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