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On the Origins of Stereo- and Regio-Selectivities in the Formation of Fullerene-Fluorene Dyads.

KaiNi ZhangHong ZhengYanbo HanYonghong ChengXiang Zhao
Published in: The Journal of organic chemistry (2022)
Recently, a novel [2+2] cycloaddition between the classical I h -C 60 and a fluorenylideneallene complex has been achieved experimentally. In the fullerene-fluorene dyad product, stereo- and regio-selectivities were found in the experiment, but the reasons are still unknown. Our theoretical studies suggest that, based on a diradical pathway, the structural selectivity of the product strongly depends on the structural/electronic features of the fluorenylideneallene and C 60 complexes. When the R 1 group in fluorenylideneallene denotes the H atom, the E -type product is more stable than the Z -type one, whereas other bulkier R 1 groups lead to the reverse due to their steric hindrance. The π orbital conjugation between the fluorenyl group and the C β ═C γ bond in fluorenylideneallene is the main reason for the high selectivity of β,γ-cycloaddition. Analyses of both frontier orbitals and spin density for the intermediate structure suggest a diradical pathway of the reaction between fluorenylideneallene and C 60 and uncover a decisive role of the LUMO of C 60 toward regio-selectivity, which conduces to a high selectivity of the (6,6)-addition product.
Keyphrases
  • density functional theory
  • structural basis
  • molecular dynamics
  • electron transfer
  • transition metal
  • ionic liquid