Issue 41, 2024

Accessing the free expansion of a crystalline colloidal drop by optical experiments

Abstract

We study poly-crystalline spherical drops of an aqueous suspension of highly charged colloidal spheres exposed to a colloid-free aqueous environment. Crystal contours were obtained from standard optical imaging. The crystal spheres first expand to nearly four times their initial volume before slowly shrinking due to dilution-induced melting. Exploiting coherent multiple-scattering by (110) Bragg reflecting crystals, time-dependent density profiles were recorded within the drop interior. These show a continuously flattening radial density gradient and a decreasing central density. Expansion curves and density profiles are qualitatively consistent with theoretical expectations based on dynamical density functional theory for the expansion of a spherical crystallite made of charged Brownian spheres. We anticipate that our study opens novel experimental access to density determination in turbid crystals.

Graphical abstract: Accessing the free expansion of a crystalline colloidal drop by optical experiments

Supplementary files

Article information

Article type
Paper
Submitted
09 Apr 2024
Accepted
10 Aug 2024
First published
27 Aug 2024
This article is Open Access
Creative Commons BY license

Soft Matter, 2024,20, 8185-8197

Accessing the free expansion of a crystalline colloidal drop by optical experiments

M. U. Witt, G. H. P. Nguyen, J. R. von Puttkamer-Luerssen, C. H. Yilderim, J. A. B. Wagner, E. Malek, S. Juretzka, J. L. Meyrelles, M. Hofmann, H. Löwen and T. Palberg, Soft Matter, 2024, 20, 8185 DOI: 10.1039/D4SM00413B

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