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Iridium-Catalyzed Isomerization of N-Sulfonyl Aziridines to Allyl Amines.

Albert CabréGiuseppe SciortinoGregori UjaqueXavier VerdaguerAgustí LledosAntoni Riera
Published in: Organic letters (2018)
The Crabtree's reagent catalyzes the isomerization of N-sulfonyl 2,2-disubstituted aziridines to allyl amines. The selectivity of allyl amine vs imine is very high (up to 99/1). The unprecedented isomerization takes place in mild conditions without activation of the catalyst by hydrogen. The mechanism has been studied computationally by DFT calculations; instead of the usual hydrogenation of COD, the catalytic species is formed by a loss of the pyridine ligand. Approaching of aziridine to this unsaturated species leads to a carbocation intermediate through a low energy barrier. A metal-mediated tautomerization involving sequentially γ-H elimination and N-H reductive elimination affords selectively the allyl amine. The readiness of the CγH bond to participate in the H elimination step accounts for the selectivity toward the allyl amine product.
Keyphrases
  • density functional theory
  • room temperature
  • ionic liquid
  • molecular docking
  • molecular dynamics simulations
  • molecular dynamics
  • crystal structure
  • transition metal