Synergistic Phase-Transfer Catalysis for Nucleophilic Fluorination

Benjamin List; Nils Frank

doi:10.1055/a-2558-0903

Synfacts, Table of Contents

Synfacts 2025; 21(05): 511
DOI: 10.1055/a-2558-0903

Organo- and Biocatalysis

Synergistic Phase-Transfer Catalysis for Nucleophilic Fluorination

Contributor(s):

Benjamin List

,

Nils Frank

Abstract

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Dooley C, Ibba F, Botlik BB, Palladino C, Goult CA, Goa Y, Lister A, Paton RS *, Lloyd-Jones GC *, Gouverneur V *. Colorado State University, Fort Collins, USA, University of Edinburgh, and University of Oxford, UK
Enantioconvergent Nucleophilic Substitution via Synergistic Phase-Transfer Catalysis.

Nat. Catal. 2025;
8: 107-115
DOI: 10.1038/s41929-024-01288-0

Keywords

phase-transfer catalysis - S_N2 mechanism - fluorination

Significance

Paton, Lloyd-Jones, Gouverneur and co-workers report an enantioconvergent nucleophilic substitution of benzylic bromides and α-bromoketones with potassium fluoride (KF) to afford alkyl fluorides in high yields (52–94 %) and enantioselectivities (up to 98:2). Key to the success of this reaction was the use of the chiral bis-urea hydrogen bond donor (S)-1/2 and an onium salt: PPh₄PI or Et₄NI.

Comment

In-depth NMR and computational studies confirm the presence of a chiral ternary complex between (S)-1/2, the onium cation and fluoride anion. It was found that this ternary complex was crucial for solubilization of potassium fluoride. Kinetic isotope effects suggest an S_N2-like pathway in combination with rapid starting material racemization leading to enantioconvergence.

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