Colloidal cubic diamond crystal with low-coordinated and staggered structure, could display a wide photonic bandgap at low refractive index contrasts, which makes it extremely valuable for photonic applications. However, self-assembly...
Designing
complex cluster crystals with a specific function using
simple colloidal building blocks remains a challenge in materials
science. Herein, we propose a conceptually new design strategy for
constructing complex cluster crystals via hierarchical self-assembly
of simple soft Janus colloids. A novel and previously unreported colloidal
cluster-χ (χc) phase, which resembles the essential
structural features of α-manganese but at a larger length scale,
is obtained through molecular dynamics simulations. The formation
of the χc phase undergoes a remarkable two-step self-assembly
process, that is, the self-assembly of clusters with specific size
dispersity from Janus colloids, followed by the highly ordered organization
of these clusters. More importantly, the dynamic exchange of particles
between these clusters plays a critical role in stabilizing the χc phase. Such a conceptual design framework based on intercluster
exchange has the potential to effectively construct novel complex
cluster crystals by hierarchical self-assembly of colloidal building
blocks.
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