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Issue 30, 2013
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The interplay of sedimentation and crystallization in hard-sphere suspensions

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Abstract

We study crystal nucleation under the influence of sedimentation in a model of colloidal hard spheres via Brownian dynamics simulations. We introduce two external fields acting on the colloidal fluid: a uniform gravitational field (body force), and a surface field imposed by pinning a layer of equilibrium particles (rough wall). We show that crystal nucleation is suppressed in proximity of the wall due to the slowing down of the dynamics, and that the spatial range of this effect is governed by the static length scale of bond orientational order. For distances from the wall larger than this length scale, the nucleation rate is greatly enhanced by the process of sedimentation, since it leads to a higher volume fraction, or a higher degree of supercooling, near the bottom. The nucleation stage is similar to the homogeneous case, with nuclei being on average spherical and having crystalline planes randomly oriented in space. The growth stage is instead greatly affected by the symmetry breaking introduced by the gravitation field, with a slowing down of the attachment rate due to density gradients, which in turn cause nuclei to grow faster laterally. Our findings suggest that the increase of crystal nucleation in higher density regions might be the cause of the large discrepancy in the crystal nucleation rate of hard spheres between experiments and simulations, on noting that the gravitational effects in previous experiments are not negligible.

Graphical abstract: The interplay of sedimentation and crystallization in hard-sphere suspensions

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Publication details

The article was received on 10 Apr 2013, accepted on 10 Jun 2013 and first published on 11 Jun 2013


Article type: Paper
DOI: 10.1039/C3SM50980J
Citation: Soft Matter, 2013,9, 7369-7383
  • Open access: Creative Commons BY-NC license
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    The interplay of sedimentation and crystallization in hard-sphere suspensions

    J. Russo, A. C. Maggs, D. Bonn and H. Tanaka, Soft Matter, 2013, 9, 7369
    DOI: 10.1039/C3SM50980J

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