2022
DOI: 10.1126/sciadv.abn5715
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Grain boundary dynamics driven by magnetically induced circulation at the void interface of 2D colloidal crystals

Abstract: The complexity of shear-induced grain boundary dynamics has been historically difficult to view at the atomic scale. Meanwhile, two-dimensional (2D) colloidal crystals have gained prominence as model systems to easily explore grain boundary dynamics at single-particle resolution but have fallen short at exploring these dynamics under shear. Here, we demonstrate how an inherent interfacial shear in 2D colloidal crystals drives microstructural evolution. By assembling paramagnetic particles into polycrystalline … Show more

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Cited by 15 publications
(7 citation statements)
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“…1 (g)]. This agrees with experiments, where edge currents have also been observed at the surface of spinner clusters [44] and at grain boundaries [45] at the Re ≈ 0 limit. The measured radial particle velocity distribution shows a very good agreement with the hydrodynamic simulation [Fig.…”
supporting
confidence: 90%
“…1 (g)]. This agrees with experiments, where edge currents have also been observed at the surface of spinner clusters [44] and at grain boundaries [45] at the Re ≈ 0 limit. The measured radial particle velocity distribution shows a very good agreement with the hydrodynamic simulation [Fig.…”
supporting
confidence: 90%
“…These are the so-called “disclination” defects [ 7 ], where the local number of neighbors is violated. In an analogy with dislocations, which are positional defects, a collection of 5/7 declination pairs are used to define “grain boundaries” between entropically ordered sections of 2D colloidal crystals [ 41 , 42 ]. The visible spacing or cracks between particles in certain regions for the films do not correspond well to the 5/7 declination pairs.…”
Section: Resultsmentioning
confidence: 99%
“…The equilibrium description of magnetic colloids in time-varying fields can break down as a result of coupling between the oscillating interactions and the particle dynamics at lower frequencies and/or the presence of magnetic torques at higher frequencies. The effects of such torques are evident in studies of solid-gas coexistence, which show that particle voids act as both source and sink for grain boundaries (104). Ordered crystal domains and grain boundaries can be identified by the local bond-orientational order parameter θ 6 (Figure 12c).…”
Section: Pushing the Limits Of Statistical Thermodynamicsmentioning
confidence: 99%