Interfacial crystallization within liquid marbles

Edward Bormashenko, Pritam Kumar Roy, Shraga Shoval, Irina Legchenkova

Research output: Contribution to journalArticlepeer-review

9 Scopus citations

Abstract

We report interfacial crystallization in the droplets of saline solutions placed on superhydrophobic surfaces and liquid marbles filled with the saline. Evaporation of saline droplets deposited on superhydrophobic surface resulted in the formation of cup-shaped millimeter-scaled residues. The formation of the cup-like deposit is reasonably explained within the framework of the theory of the coffee-stain effect, namely, the rate of heterogeneous crystallization along the contact line of the droplet is significantly higher than in the droplet bulk. Crystallization within evaporated saline marbles coated with lycopodium particles depends strongly on the evaporation rate. Rapidly evaporated saline marbles yielded dented shells built of a mixture of colloidal particles and NaCl crystals. We relate the formation of these shells to the interfacial crystallization promoted by hydrophobic particles coating the marbles, accompanied with the upward convection flows supplying the saline to the particles, serving as the centers of interfacial crystallization. Convective flows prevail over the diffusion mass transport for the saline marbles heated from below.

Original languageEnglish
Article number62
Pages (from-to)1-11
Number of pages11
JournalCondensed Matter
Volume5
Issue number4
DOIs
StatePublished - Dec 2020

Keywords

  • Coffee-stain effect
  • Hydrophobic particle
  • Interfacial crystallization
  • Liquid marble
  • Superhydrophobic surface

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