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Programming patchy particles to form three-dimensional dodecagonal quasicrystals.

Daniel F TraceyEva G NoyaJonathan P K Doye
Published in: The Journal of chemical physics (2021)
Model patchy particles have been shown to be able to form a wide variety of structures, including symmetric clusters, complex crystals, and even two-dimensional quasicrystals. Here, we investigate whether we can design patchy particles that form three-dimensional quasicrystals, in particular targeting a quasicrystal with dodecagonal symmetry that is made up of stacks of two-dimensional quasicrystalline layers. We obtain two designs that are able to form such a dodecagonal quasicrystal in annealing simulations. The first is a one-component system of seven-patch particles but with wide patches that allow them to adopt both seven- and eight-coordinated environments. The second is a ternary system that contains a mixture of seven- and eight-patch particles and is likely to be more realizable in experiments, for example, using DNA origami. One interesting feature of the first system is that the resulting quasicrystals very often contain a screw dislocation.
Keyphrases
  • molecular dynamics
  • high resolution
  • deep learning
  • drug delivery
  • gold nanoparticles
  • mass spectrometry
  • finite element analysis