Chiral Counteranion-Controlled Chemoselectivity in Gold-Catalysed Hydroamination/Enantioselective Formal 1,3-Allylic Alcohol Isomerisation of -Amino-1,4-enynols

14 November 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

A synthetic method for the preparation of 1,8-dihydroindeno[2,1-b]pyrroles and pyrrol-2-yl methanols in an enantioselective manner that relies on the chiral gold(I)-catalysed reactions of -amino-1,4-enynols is described. A divergence in product selectivity was achieved by exploiting the electrostatic interactions between the chiral counteranion of the metal catalyst and the substrate. With a gold(I) complex containing a chiral triflylamide-based counteranion, tandem dehydrative Nazarov-type electrocyclization/hydroamination of the substrate was found to selectively occur to afford the indeno-fused pyrrole adduct. In contrast, changing to a chiral phosphate-based counteranion was observed to result in a hydroamination/1,3-allylic alcohol isomerisation cascade pathway to give the 1H-pyrrole derivative.

Keywords

enantioselective catalysis
gold
allylic alcohol isomerisation
homogeneous catalysis
synthetic methods
hydroamination
dehydrative Nazarov-type electrocyclisation
N-heterocyclic synthesis

Supplementary materials

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Title
Chiral Counteranion-Controlled Chemoselectivity in Gold-Catalysed Hydroamination/Enantioselective Formal 1,3-Allylic Alcohol Isomerisation of -Amino-1,4-enynols
Description
A synthetic method for the preparation of 1,8-dihydroindeno[2,1-b]pyrroles and pyrrol-2-yl methanols in an enantioselective manner that relies on the chiral gold(I)-catalysed reactions of -amino-1,4-enynols is described.
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