Synthesis and Reactivity of Allylic Amines in Palladium Catalysis

Dubovyk, Igor

11 December 2012

Reaction of unsymmetrical allylic electrophiles with amines gives rise to regioisomeric allylamines. It was found that linear products result from the thermodynamically controlled isomerization of the corresponding branched products, which form initially. The isomerization was found to be promoted by the presence of acid and active palladium catalyst. The use of base shut down the isomerization pathway and allowed for the preparation and isolation of branched allylamines. This methodology provides a powerful control element, which allows for the installation of quaternary and chiral centres next to nitrogen. Later, the isomerization was combined with ring-closing metathesis to afford the synthesis of exocyclic allylamines from their thermodynamically less-stable endocyclic precursors. This rearrangement became feasible as a result of the electrophilic nature of a C – N bond in allylamines. When compared to the conventional intramolecular allylic amination, such approach escapes chemoselectivity issues, which makes it attractive attractive for late-stage synthetic modifications.

palladium catalysis

allylic amine

0490

Synthesis and Reactivity of Allylic Amines in Palladium Catalysis

Dubovyk, Igor

11 December 2012

Reaction of unsymmetrical allylic electrophiles with amines gives rise to regioisomeric allylamines. It was found that linear products result from the thermodynamically controlled isomerization of the corresponding branched products, which form initially. The isomerization was found to be promoted by the presence of acid and active palladium catalyst. The use of base shut down the isomerization pathway and allowed for the preparation and isolation of branched allylamines. This methodology provides a powerful control element, which allows for the installation of quaternary and chiral centres next to nitrogen. Later, the isomerization was combined with ring-closing metathesis to afford the synthesis of exocyclic allylamines from their thermodynamically less-stable endocyclic precursors. This rearrangement became feasible as a result of the electrophilic nature of a C – N bond in allylamines. When compared to the conventional intramolecular allylic amination, such approach escapes chemoselectivity issues, which makes it attractive attractive for late-stage synthetic modifications.

palladium catalysis

allylic amine

0490

Synthèse de nouveaux ligands hémilabiles chiraux : application à la synthèse énantiosélective

Bonnaventure, Isabelle

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Ligand hémilabile

Hemilabile ligand

Diphosphine monoxydée

Diphosphine monoxide

Monophosphine

Monophosphine

Catalyse asymétrique

Asymetric caralysis

Hétérocycle azoté

N-Heterocycle

Amine allylique

Allylic amine

Tétrahydroisoquinoline

Tetrahydroisoquinoline

Asymmetric [2,3]-Sigmatropic Rearrangement of Allylic Ammonium Ylides

Blid, Jan

January 2005

The thesis describes the realization of an asymmetric [2,3]-sigmatropic rearrangement of achiral allylic amines. It is divided into two parts; the first part deals with the development of a Lewis acid-mediated [2,3]-sigmatropic rearrangement and the second the asymmetric version thereof. Quaternization of an -amino amide with various Lewis acids established BBr3 and BF3 to be the most appropriate ones. Various allylic amines were subsequently rearranged into the corresponding homoallylic amines in good to excellent syn-diastereoselectivities, revealing the endo-transition state to be the preferred pathway. The structures of the intermediate Lewis acid-amine complexes were confirmed by NMR spectroscopy studies and DFT calculations. Based on this investigation a chiral diazaborolidine was chosen as Lewis acid and was shown to efficiently promote the asymmetric [2,3]-sigmatropic rearrangement furnishing homoallylic amines in good yields and excellent enantiomeric excesses. In contrast to the achiral rearrangement mediated by BBr3 and BF3, the asymmetric version gave the opposite major diastereomer, revealing a preference for the exo-transition state in the asymmetric rearrangement. To account for the observed selectivities, a kinetic and thermodynamic pathway was presented. On the basis of a deuterium exchange experiment on a rearranged Lewis acid-amine complex and an NMR spectroscopic investigation, the kinetic pathway was shown to be favored. / QC 20100927

asymmetric

[2

3]-sigmatropic rearrangement

allylic amine

ammonium ylide

Lewis acid

enantioselective

boron

phosphazene base

NMR spectroscopy

DFT-calculations

Organic chemistry

Organisk kemi

Synthèse de nouveaux ligands hémilabiles chiraux : application à la synthèse énantiosélective

Bonnaventure, Isabelle

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Ligand hémilabile

Hemilabile ligand

Diphosphine monoxydée

Diphosphine monoxide

Monophosphine

Monophosphine

Catalyse asymétrique

Asymetric caralysis

Hétérocycle azoté

N-Heterocycle

Amine allylique

Allylic amine

Tétrahydroisoquinoline

Tetrahydroisoquinoline