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Polyaromatic molecular peanuts.

Kohei YazakiMunetaka AkitaSoumyakanta PrustyDillip Kumar ChandTakashi KikuchiHiroyasu SatoMichito Yoshizawa
Published in: Nature communications (2017)
Mimicking biological structures such as fruits and seeds using molecules and molecular assemblies is a great synthetic challenge. Here we report peanut-shaped nanostructures comprising two fullerene molecules fully surrounded by a dumbbell-like polyaromatic shell. The shell derives from a molecular double capsule composed of four W-shaped polyaromatic ligands and three metal ions. Mixing the double capsule with various fullerenes (that is, C60, C70 and Sc3N@C80) gives rise to the artificial peanuts with lengths of ∼3 nm in quantitative yields through the release of the single metal ion. The rational use of both metal-ligand coordination bonds and aromatic-aromatic π-stacking interactions as orthogonal chemical glue is essential for the facile preparation of the multicomponent, biomimetic nanoarchitectures.
Keyphrases
  • high resolution
  • quantum dots
  • single molecule
  • tissue engineering