Spectroscopic Identification of H2NSO and syn- and anti-HNSOH Radicals

Xuelin Dong¹, Guohai Deng¹, Zhuang Wu¹, Jian Xu¹, Bo Lu¹, Tarek Trabelsi, Joseph S. Francisco^2*, and Xiaoqing Zeng^1*（曾小庆）

¹College of Chemistry, Chemical Engineering and Materials Science，Soochow University，Suzhou 215123 (China)

²Department of Chemistry，University of Nebraska-Lincoln，Lincoln, NE 68588 (USA)

Angew. Chem. Int. Ed.2018, 57, 7513--7517

The simplest aminosulfinyl radical H₂NSO has been generated in the gas phase through flash vacuum pyrolysis of CF₃S(O)NH₂ at approximately 1000 K. Upon UV light irradiation (365 nm), 1,3‐H migration occurs in H₂NSO and furnishes an elusive N‐amidyl radical HNSOH in syn and anti conformations in cryogenic matrices (N₂ or Ar, 15 K). Further 266 nm laser irradiation results in dissociation of HNSOH to H₂O and SN and concomitant reformation of H₂NSO in trace amount. The identification of H₂NSO, syn‐HNSOH, and anti‐HNSOH by matrix‐isolation IR spectroscopy is supported by high‐level quantum chemical computations.

链接：https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.201802738