It
remains extremely challenging to build three-dimensional photonic
crystals with complete photonic bandgaps by simple and experimentally
realizable colloidal building blocks. Here, we demonstrate that particle
softness can enhance both the self-assembly of pyrochlore- and perovskite-like
lattice structures from simple deformable triblock Janus colloids
and their photonic bandgap performances. Dynamics simulation results
show that the region of stability of pyrochlore lattices can be greatly
expanded by appropriately increasing softness, and the perovskite
lattices are unexpectedly obtained at enough high softness. Photonic
calculations show that the direct pyrochlore lattices formed from
overlapping soft triblock Janus particles exhibit even larger photonic
bandgaps than the ideal nonoverlapping pyrochlore lattice, and proper
overlap arising from softness can also dramatically improve the photonic
properties of the inverse pyrochlore and perovskite lattices. Our
study offers a new and feasible self-assembly path toward three-dimensional
photonic crystals with large and robust photonic bandgaps.
The characteristics of concentration-dependent self-assembly of compact dendrimers into onion-like dendrimersomes are investigated using computer simulations.
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