Scalable Synthesis of (R,R)‑N,N‑Dibenzyl-2-fluorocyclohexan-1-amine with CsF under Hydrogen Bonding Phase-Transfer Catalysis

Scalable Synthesis of (R,R)‑N,N‑Dibenzyl-2-fluorocyclohexan-1-amine with CsF under Hydrogen Bonding Phase-Transfer Catalysis

Hydrogen bonding phase-transfer catalysis offers a convenient solution to activate safe and economical metal alkali fluorides for enantioselective nucleophilic fluorination. Herein, we demonstrate the scalability of this protocol with the fluorination of 200 g of racemic trans-N,N-dibenzyl-2-bromocy...

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Veröffentlicht in:Organic process research & development 2021-12, Vol.25 (12), p.2730-2737
Hauptverfasser: Vicini, Anna Chiara, Alozie, Diké-Michel, Courtes, Philippe, Roagna, Giulia, Aubert, Catherine, Certal, Victor, El-Ahmad, Youssef, Roy, Sébastien, Gouverneur, Véronique
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Sprache:eng
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Zusammenfassung:Hydrogen bonding phase-transfer catalysis offers a convenient solution to activate safe and economical metal alkali fluorides for enantioselective nucleophilic fluorination. Herein, we demonstrate the scalability of this protocol with the fluorination of 200 g of racemic trans-N,N-dibenzyl-2-bromocyclohexan-1-amine in a mechanically stirred 1 L glass reactor using 0.5 mol % of a bis-urea organocatalyst. In these experiments, full conversions were obtained for high mixing intensities (impeller average shear rate >10 000 s–1; maximum energy dissipation per unit of mass >300 W/kg). The thermal safety of the reaction was assessed by differential scanning calorimetry and reaction calorimetry, assigning the reaction to Stoessel’s critical class 3.
ISSN:1083-6160
1520-586X
DOI:10.1021/acs.oprd.1c00312