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Rehybridization dynamics into the pericyclic minimum of an electrocyclic reaction imaged in real-time.

Yusong LiuDavid M SanchezM R WareE G ChampenoisJ YangJ P F NunesA AttarMartin CenturionJames P CryanRuaridh J G ForbesK HegazyMatthias C HoffmannF JiMing-Fu LinDuan LuoSajib Kumar SahaXiaozhe ShenXijie J WangTodd J MartinezThomas J A Wolf
Published in: Nature communications (2023)
Electrocyclic reactions are characterized by the concerted formation and cleavage of both σ and π bonds through a cyclic structure. This structure is known as a pericyclic transition state for thermal reactions and a pericyclic minimum in the excited state for photochemical reactions. However, the structure of the pericyclic geometry has yet to be observed experimentally. We use a combination of ultrafast electron diffraction and excited state wavepacket simulations to image structural dynamics through the pericyclic minimum of a photochemical electrocyclic ring-opening reaction in the molecule α-terpinene. The structural motion into the pericyclic minimum is dominated by rehybridization of two carbon atoms, which is required for the transformation from two to three conjugated π bonds. The σ bond dissociation largely happens after internal conversion from the pericyclic minimum to the electronic ground state. These findings may be transferrable to electrocyclic reactions in general.
Keyphrases
  • electron transfer
  • deep learning
  • mass spectrometry
  • transition metal