Crystals (Oct 2016)

Stable Photocatalytic Paints Prepared from Hybrid Core-Shell Fluorinated/Acrylic/TiO2 Waterborne Dispersions

  • Audrey Bonnefond,
  • Edurne González,
  • José M. Asua,
  • Jose Ramon Leiza,
  • Eliana Ieva,
  • Giulio Brinati,
  • Serena Carella,
  • Alessio Marrani,
  • Alessandro Veneroni,
  • John Kiwi,
  • Cesar Pulgarin,
  • Sami Rtimi

DOI
https://doi.org/10.3390/cryst6100136
Journal volume & issue
Vol. 6, no. 10
p. 136

Abstract

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The contamination of air and water is one of the major concerns towards the development of a sustainable world in the 21st century. In this context many efforts are devoted to the design of photocatalytic paints able to degrade chemical and biological impurities present in air and water. In this work, the photocatalytic activity of hybrid films formed from the blends of pure acrylic or core/shell fluorinated/acrylic waterborne dispersions and photocatalytic titanium dioxide (TiO2) nanoparticle dispersions was first assessed. The films show photocatalytic activity (inactivation of the Escherichia coli bacteria under UV irradiation) at the substrate-film interface, but very reduced activity in the air-film interface due to the substantially lower amount of the TiO2 nanoparticles in the vicinity of this interface. In a second step, the fluorinated/(meth)acrylic core-shell hybrid dispersions were used as binders in the formulation of waterborne photocatalytic paints and the stability of the paints, in terms of gloss retain and color change, was assessed during 5000 hours of accelerated weathering tests (QUV-B). Although a decrease in gloss retention and increased color change occurs during the first 1000 hours of exposure, no further change of these properties takes place, which is an excellent indication of stable photocatalytic paints.

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