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Net-1,2-Hydrogen Atom Transfer of Amidyl Radicals: Toward the Synthesis of 1,2-Diamine Derivatives.

Yonggang JiangDongxiang LiuMadeline E RotellaGuogang DengZhengfen LiuWen ChenHong-Bin ZhangMarisa C KozlowskiPatrick J WalshXiaodong Yang
Published in: Journal of the American Chemical Society (2023)
Hydrogen atom transfer (HAT) processes are among the most useful approaches for the selective construction of C(sp 3 )-C(sp 3 ) bonds. 1,5-HAT with heteroatom-centered radicals (O • , N • ) have been well established and are favored relative to other 1, n -HAT processes. In comparison, net 1,2-HAT processes have been observed infrequently. Herein, the first amidyl radicalls are reported that preferentially undergo a net 1,2-HAT over 1,5-HAT. Beginning with single electron transfer from 2-azaallyl anions to N -alkyl N -aryloxy amides, the latter generate amidyl radicals. The amidyl radical undergoes a net-1,2-HAT to generate a C-centered radical that participates in an intermolecular radical-radical coupling with the 2-azaallyl radical to generate 1,2-diamine derivatives. Mechanistic and EPR experiments point to radical intermediates. Density functional theory calculations provide support for a base-assisted, stepwise-1,2-HAT process. It is proposed that the generation of amidyl radicals under basic conditions can be greatly expanded to access α-amino C-centered radicals that will serve as valuable synthetic intermediates.
Keyphrases
  • electron transfer
  • density functional theory
  • molecular dynamics
  • visible light
  • quantum dots