C(sp3)−C(sp3) Bond Formation via Electrochemical Alkoxylation and Subsequent Lewis Acid Promoted Reactions

C(sp3)−C(sp3) Bond Formation via Electrochemical Alkoxylation and Subsequent Lewis Acid Promoted Reactions

A two‐step transition metal‐free methodology for the C(sp3)−C(sp3) functionalisation of saturated N‐heterocyclic systems is disclosed. First, aminal derivatives are generated through the anodic oxidation of readily accessible carboxylic acids. Then, in the presence of BF3 ⋅ OEt2, iminium ions are un...

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Veröffentlicht in:Advanced synthesis & catalysis 2021-10, Vol.363 (19), p.4521-4525
Hauptverfasser: López, Enol, Melis, Carlo, Martín, Raúl, Petti, Alessia, Hoz, Antonio, Díaz‐Ortíz, Ángel, Dobbs, Adrian P., Lam, Kevin, Alcázar, Jesús
Format: Artikel
Sprache:eng
Schlagworte:
Alkylation
Anodizing
Carboxylic acids
Chemical reactions
Chemistry
Chemistry, Applied
Chemistry, Organic
Drug discovery
Electrochemistry
Flow chemistry
Lewis acid
Methodology
Organozinc reagents
Oxidation
Peptides
Physical Sciences
Reagents
Science & Technology
Transition metals
Transition-metal free
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Zusammenfassung:A two‐step transition metal‐free methodology for the C(sp3)−C(sp3) functionalisation of saturated N‐heterocyclic systems is disclosed. First, aminal derivatives are generated through the anodic oxidation of readily accessible carboxylic acids. Then, in the presence of BF3 ⋅ OEt2, iminium ions are unmasked and rapidly alkylated by organozinc reagents under flow conditions. Secondary, tertiary and quaternary carbon centers have been successfully assembled using this methodology. Such an approach is especially relevant to drug discovery since it increases C(sp3)‐functionalities rapidly within a molecular framework. As proof of concept, our methodology was applied to derivatization of peptides and an API.
ISSN:1615-4150
1615-4169
DOI:10.1002/adsc.202100749