Nature Communications (Jun 2024)

A combined experimental and computational study of ligand-controlled Chan-Lam coupling of sulfenamides

  • Kaiming Han,
  • Hong Liu,
  • Madeline E. Rotella,
  • Zeyu Xu,
  • Lizhi Tao,
  • Shufeng Chen,
  • Marisa C. Kozlowski,
  • Tiezheng Jia

DOI
https://doi.org/10.1038/s41467-024-49089-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 9

Abstract

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Abstract The unique features of the sulfenamides’ S(II)-N bond lead to interesting stereochemical properties and significant industrial functions. Here we present a chemoselective Chan–Lam coupling of sulfenamides to prepare N-arylated sulfenamides. A tridentate pybox ligand governs the chemoselectivity favoring C–N bond formation, and overrides the competitive C-S bond formation by preventing the S,N-bis-chelation of sulfenamides to copper center. The Cu(II)-derived resting state of catalyst is captured by UV-Vis spectra and EPR technique, and the key intermediate is confirmed by the EPR isotope response using 15N-labeled sulfenamide. A computational mechanistic study reveals that N-arylation is both kinetically and thermodynamically favorable, with deprotonation of the sulfenamide nitrogen atom occurring prior to reductive elimination. The origin of ligand-controlled chemoselectivity is explored, with the interaction between the pybox ligand and the sulfenamide substrate controlling the energy of the S-arylation and the corresponding product distribution, in agreement with the EPR studies and kinetic results.