中文

Directed assembly of tetrahedral patchy particles

软凝聚态物质 2026-07-08 v1 材料科学

摘要

Colloidal particles with prescribed valency such as the tetrahedral patchy particles have long been seen as a viable route to technologically relevant open lattice structures on the scale of hundreds of nanometers. However, conceptual limitations and resulting competing local bonding configurations often lead to mixed lattice phases. Here, we present a DNA-origami enabled approach to controlling the attachment of tetrapod building blocks in predictable ways. By varying the relative strength of two designed binding configurations we are able to direct the assembly of tetrapod particles into diamond cubic, twinned diamonds, stacking-disordered mixtures, hexagonal diamonds, and sII clathrates. Under specific conditions, the diamond structures are interpenetrated by additional networks, resulting in triple cubic and triple hexagonal diamond structures. The 440 nm large unit cell of the clathrates shifts structural reflections into the visible range, giving these rationally designed, self-assembled crystals structural color.

引用

@article{arxiv.2607.07877,
  title  = {Directed assembly of tetrahedral patchy particles},
  author = {Xin Yin and Ekaterina Kostyurina and Bert Nickel and Tim Liedl and Gregor Posnjak},
  journal= {arXiv preprint arXiv:2607.07877},
  year   = {2026}
}

备注

23 pages, 5 figures; Supplementary materials: 38 pages, 33 figures