English

Colloidal Shape Effects in Evaporating Drops

Soft Condensed Matter 2013-08-13 v2

Abstract

We explore the influence of particle shape on the behavior of evaporating drops. A first set of experiments discovered that particle shape modifies particle deposition after drying. For sessile drops, spheres are deposited in a ring-like stain, while ellipsoids are deposited uniformly. Experiments elucidate the kinetics of ellipsoids and spheres at the drop's edge. A second set of experiments examined evaporating drops confined between glass plates. In this case, colloidal particles coat the ribbon-like air-water interface, forming colloidal monolayer membranes (CMMs). As particle anisotropy increases, CMM bending rigidity was found to increase, which in turn introduces a new mechanism that produces a uniform deposition of ellipsoids and a heterogeneous deposition of spheres after drying. A final set of experiments investigates the effect of surfactants in evaporating drops. The radially outward flow that pushes particles to the drop's edge also pushes surfactants to the drop's edge, which leads to a radially inward flow on the drop surface. The presence of radially outward flows in the bulk fluid and radially inward flows at the drop surface creates a Marangoni eddy, among other effects, which also modifies deposition after drying.

Keywords

Cite

@article{arxiv.1308.1874,
  title  = {Colloidal Shape Effects in Evaporating Drops},
  author = {Peter J. Yunker and Tim Still and A. G. Yodh},
  journal= {arXiv preprint arXiv:1308.1874},
  year   = {2013}
}

Comments

Peter J. Yunker, Tim Still, A. G. Yodh, Colloidal Shape Effects in Evaporating Drops. Proceedings of the International School of Physics "Enrico Fermi" Course CLXXXIV "Physics of Complex Colloids," (2013)

R2 v1 2026-06-22T01:06:14.853Z