Hierarchical Self-Assembly of Nanowires on the Surface by Metallo-Supramolecular Truncated Cuboctahedra

Parastichy, the spiral arrangement of plant organs, is an example of the long-range apparent order seen in biological systems. These ordered arrangements provide scientists with both an aesthetic challenge and a mathematical inspiration. Synthetic efforts to replicate the regularity of parastichy may allow for molecular-scale control over particle arrangement processes. Here we report the packing of a supramolecular truncated cuboctahedron (TCO) into double-helical (DH) nanowires on a graphite surface with a non-natural parastichy pattern ascribed to the symmetry of the TCOs and interactions between TCOs. Such a study is expected to advance our understanding of the design inputs needed to create complex, but precisely controlled, hierarchical materials. It is also one of the few reported helical packing structures based on Platonic or Archimedean solids since the discovery of the Boerdijk-Coxeter helix. As such, it may provide experimental support for studies of packing theory at the molecular level.

Automated summary

Parastichy, the spiral arrangement of plant organs, provides both an aesthetic challenge and a mathematical inspiration to scientists. Synthetic efforts to replicate its regularity may allow for molecular-scale control over particle arrangement processes. This study on the packing of a supramolecular truncated cuboctahedron into double-helical nanowires with a non-natural parastichy pattern is expected to advance understanding of designing complex, precisely controlled hierarchical materials.