Communications Chemistry (Apr 2023)

Microwave-assisted C–C bond formation of diarylacetylenes and aromatic hydrocarbons on carbon beads under continuous-flow conditions

  • Tsuyoshi Yamada,
  • Wataru Teranishi,
  • Naoya Sakurada,
  • Seiya Ootori,
  • Yuka Abe,
  • Tomohiro Matsuo,
  • Yasuharu Morii,
  • Masatoshi Yoshimura,
  • Takeo Yoshimura,
  • Takashi Ikawa,
  • Hironao Sajiki

DOI
https://doi.org/10.1038/s42004-023-00880-y
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 11

Abstract

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Abstract The synthesis of polycyclic aromatic compounds generally requires stoichiometric oxidants or homogeneous metal catalysts, however, the risk of contamination of inorganic residues can affect their properties. Here we present a microwave (MW)-assisted platinum on beaded activated carbon (Pt/CB)-catalyzed C–C bond formation of diarylacetylenes and aromatic hydrocarbons under continuous-flow conditions. Various fused aromatic compounds were continuously synthesized via dehydrogenative C(sp2)–C(sp2) and C(sp2)–C(sp3) bond formation with yields of up to 87% without the use of oxidants and bases. An activated, local reaction site on Pt/CB in the flow reaction channel reaching temperatures of more than three hundred degrees Celsius was generated in the catalyst cartridge by selective microwave absorption in CB with an absorption efficiency of > 90%. Mechanistic experiments of the transformation reaction indicated that a constant hydrogen gas supply was essential for activating Pt. This is an ideal reaction with minimal input energy and no waste production.