A patchy-particle 3-dimensional octagonal quasicrystal

Akie Kowaguchi, Savan Mehta, Jonathan P. K. Doye, Eva G. Noya
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Abstract

We devise an ideal 3-dimensional octagonal quasicrystal that is based upon the 2-dimensional Ammann-Beenker tiling and that is potentially suitable for realization with patchy particles. Based on an analysis of its local environments we design a binary system of 8- and 5-patch particles that in simulations assembles into a 3-dimensional octagonal quasicrystal. The local structure is subtly different from the original ideal quasicrystal possessing a narrower coordination-number distribution; in fact, the 8-patch particles are not needed and a one-component system of the 5-patch particles assembles into an essentially identical octagonal quasicrystal. We also consider a one-component system of the 8-patch particles; this assembles into a cluster with a number of crystalline domains, but which, because of the coherent boundaries between the crystallites, has approximate eight-fold order. We envisage that these systems could be realized using DNA origami or protein design.
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斑状粒子三维八边形准晶体
我们设计了一种理想的三维八角形准晶体,它基于二维安曼-贝克尔平铺法,并可能适用于斑块粒子的实现。基于对其局部环境的分析,我们设计了一个由 8 个和 5 个斑块粒子组成的二元系统,通过模拟组装成一个三维八边形准晶体。该晶体的局部结构与最初的理想准晶体有细微差别,其配位数分布更窄;事实上,不需要 8 补丁粒子,由 5 补丁粒子组成的单组分系统就能组装成基本相同的八角形准晶体。我们还考虑了由 8 补丁粒子组成的单组分系统;该系统组装成一个具有多个晶域的晶簇,但由于晶粒之间的相干边界,该晶簇具有近似的八倍阶。我们认为,这些系统可以通过 DNA 折纸或蛋白质设计来实现。
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