Scientific Reports (Feb 2018)

Superamphiphobic coatings based on liquid-core microcapsules with engineered capsule walls and functionality

  • Malin Nordenström,
  • Anastasia V. Riazanova,
  • Mikael Järn,
  • Thomas Paulraj,
  • Charlotta Turner,
  • Valter Ström,
  • Richard T. Olsson,
  • Anna J. Svagan

DOI
https://doi.org/10.1038/s41598-018-21957-y
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 10

Abstract

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Abstract Microcapsules with specific functional properties, related to the capsule wall and core, are highly desired in a number of applications. In this study, hybrid cellulose microcapsules (1.2 ± 0.4 µm in diameter) were prepared by nanoengineering the outer walls of precursor capsules. Depending on the preparation route, capsules with different surface roughness (raspberry or broccoli-like), and thereby different wetting properties, could be obtained. The tunable surface roughness was achieved as a result of the chemical and structural properties of the outer wall of a precursor capsule, which combined with a new processing route allowed in-situ formation of silica nanoparticles (30–40 nm or 70 nm in diameter). By coating glass slides with “broccoli-like” microcapsules (30–40 nm silica nanoparticles), static contact angles above 150° and roll-off angles below 6° were obtained for both water and low surface-tension oil (hexadecane), rendering the substrate superamphiphobic. As a comparison, coatings from raspberry-like capsules were only strongly oleophobic and hydrophobic. The liquid-core of the capsules opens great opportunities to incorporate different functionalities and here hydrophobic superparamagnetic nanoparticles (SPIONs) were encapsulated. As a result, magnetic broccoli-like microcapsules formed an excellent superamphiphobic coating-layer on a curved geometry by simply applying an external magnetic field.