Nature Communications (Aug 2023)

Synthesis, structural analysis, and properties of highly twisted alkenes 13,13’-bis(dibenzo[a,i]fluorenylidene) and its derivatives

  • Hao-Wen Kang,
  • Yu-Chiao Liu,
  • Wei-Kai Shao,
  • Yu-Chen Wei,
  • Chi-Tien Hsieh,
  • Bo-Han Chen,
  • Chih-Hsuan Lu,
  • Shang-Da Yang,
  • Mu-Jeng Cheng,
  • Pi-Tai Chou,
  • Ming-Hsi Chiang,
  • Yao-Ting Wu

DOI
https://doi.org/10.1038/s41467-023-40990-8
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract The rotation of a C = C bond in an alkene can be efficiently accelerated by creating the high-strain ground state and stabilizing the transition state of the process. Herein, the synthesis, structures, and properties of several highly twisted alkenes are comprehensively explored. A facile and practical synthetic approach to target molecules is developed. The twist angles and lengths of the central C = C bonds in these molecules are 36–58° and 1.40–1.43 Å, respectively, and confirmed by X-ray crystallography and DFT calculations. A quasi-planar molecular half with the π-extended substituents delivers a shallow rotational barrier (down to 2.35 kcal/mol), indicating that the rotation of the C = C bond is as facile as that of the aryl-aryl bond in 2-flourobiphenyl. Other versatile and unique properties of the studied compounds include a broad photoabsorption range (from 250 up to 1100 nm), a reduced HOMO-LUMO gap (1.26–1.68 eV), and a small singlet-triplet energy gap (3.65–5.68 kcal/mol).