A Writhed Möbius Nanobelt Derived from [7]Helicene.

Authors

Liping Ye, Chenyu Hu, Daiyue Yang, Li Zhang, Xiao Chen, Lulin Qiao, Zhifeng Huang, Jun Yang, Qian Miao

Published in

Journal of the American Chemical Society. May 16, 2025. Epub May 16, 2025.

Abstract

A novel writhed Möbius nanobelt was synthesized using a helical building block derived from [7]helicene and a C-shaped building block derived from pyrene. These two building blocks were connected through nucleophilic aromatic substitution to form an oxanorbornene-containing macrocycle, which was then converted to the nanobelt by reductive aromatization and subsequent oxidation. The structure of the Möbius nanobelt was confirmed with X-ray crystallography. Both the nanobelt and its macrocyclic precursor exhibit C₂ symmetry, but this symmetry is only reflected by the ¹H NMR signals for the tetra(4-t-butylphenyl)dinaphthopyrene moiety in the nanobelt, not in its precursor. This difference is attributed to the distinct arrangements of the pendent 4-t-butylphenyl groups, caused by the crowdedness and restricted rotation of the C-C single bonds in the nanobelt. Theoretical calculations suggest that the nanobelt does not exhibit global ring currents but has localized aromatic ring currents. Additionally, when an enantiopure form of the [7]helicene derivative was used, the nanobelt was obtained in an enantiopure form, showing an absorption dissymmetry factor of 4 × 10^-3.

PMID:
40378308
Bibliographic data and abstract were imported from PubMed on 17 May 2025.

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