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Toward Cluster Materials with Ordered Structures via Self-Assembly of Heterocluster Janus Molecules.

Li-Jun RenHong-Kai LiuHan WuMin-Biao HuWei Wang
Published in: Advanced materials (Deerfield Beach, Fla.) (2019)
Cluster materials have attracted much attention because of their unique chemical and physical properties, hitherto unseen in bulk materials. Inspired by the lipid self-assembly principle, a series of heterocluster Janus molecules (HCJMs) with atomic precision have been rationally designed and synthesized by connecting different clusters via covalent bonds for the construction of nanomaterials and nano-objects. Due to their amphiphilicity, HCJMs self-assemble into cluster-containing nanomaterials or nano-objects with versatile ordered structures beyond those observed in conventional crystals. Their hybrid composition and nanoscale size are also greatly advantageous in the study of their fine structure by electron microscopy techniques, and enable their formation mechanisms to be unraveled. Finally, the influence of the characteristics of the HCJMs on the structure and properties of the self-assembled nano-objects are explored comprehensively. This synthesis strategy will promote further development of cluster materials with advanced functions via rational molecular design toward the construction of hierarchical nanostructures via molecular self-assembly.
Keyphrases
  • electron microscopy
  • high resolution
  • physical activity
  • working memory
  • single molecule
  • fatty acid
  • room temperature
  • high speed
  • oxide nanoparticles