Tropylium catalyzed domino reactions for the thioetherification of levoglucosenone

Alexander J. Notzon; Oscar Lamb; Christopher J Sumby; Amir Karton; Robert J O’Reilly; Ben W Greatrex

doi:10.1055/a-2669-5931

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Synthesis
DOI: 10.1055/a-2669-5931

Paper

Tropylium catalyzed domino reactions for the thioetherification of levoglucosenone

Alexander J. Notzon

¹Science and Technology, University of New England, Armidale, Australia (Ringgold ID: RIN1319)

,

Oscar Lamb

²Faculty of Medicine and Health, University of New England, Armidale, Australia (Ringgold ID: RIN1319)

,

Christopher J Sumby

³Department of Chemistry and the Centre for Advanced Nanomaterials, School of Physics, Chemistry and Earth Sciences, University of Adelaide, Adelaide, Australia (Ringgold ID: RIN1066)

,

Amir Karton

¹Science and Technology, University of New England, Armidale, Australia (Ringgold ID: RIN1319)

,

Robert J O’Reilly

¹Science and Technology, University of New England, Armidale, Australia (Ringgold ID: RIN1319)

,

Ben W Greatrex

²Faculty of Medicine and Health, University of New England, Armidale, Australia (Ringgold ID: RIN1319)

› Author Affiliations
Supported by: Australian Government
Supported by: Destination Australia Program (DAP)
Supported by: Australian Research Council LE210100163

› Further Information

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Approaches to substitute the chiral platform chemicals levoglucosenone and Cyrene with aryl and alkylthiols have been developed via the α-haloketones. Substitution of the 3-chloroalkene was catalyzed by Lewis acids, with the tropylium cation showing excellent activity and yield. When thiolate was replaced with methoxide, an alkoxyoxirane could be isolated, suggesting an analogous mechanism for the thiol substitution reaction. Substitution of the 3-bromo derivative of Cyrene with thiolate nucleophiles proceeded with retention of configuration in high yield, with an intermediate oxirane also demonstrated using methoxide. Computed LUMO energies for the α-haloketones support pathways dependent on the type of halogen, with large contributions at the carbonyl, and a sterically inaccessible σ* orbital due to the bicyclic ring-system.

Publication History

Received: 11 June 2025

Accepted after revision: 28 July 2025

Accepted Manuscript online:
28 July 2025

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