Influence of laser texturing on the wettability of PTFE

[Display omitted] •CO2 laser texturing can tailor the wettability of PTFE surfaces to different fluids.•Superhydrophobic and highly oleophobic surfaces were produced.•Rough surfaces with many protruding filaments are responsible for the change in wettability.•Textured surfaces are resistant to stron...

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Veröffentlicht in:Applied surface science 2020-06, Vol.515, p.145984, Article 145984
Hauptverfasser: Riveiro, A., Abalde, T., Pou, P., Soto, R., del Val, J., Comesaña, R., Badaoui, A., Boutinguiza, M., Pou, J.
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Sprache:eng
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Zusammenfassung:[Display omitted] •CO2 laser texturing can tailor the wettability of PTFE surfaces to different fluids.•Superhydrophobic and highly oleophobic surfaces were produced.•Rough surfaces with many protruding filaments are responsible for the change in wettability.•Textured surfaces are resistant to strong alkali and acid solutions, and to mechanical contact.•Laser-textured PTFE surfaces show self-cleaning properties. Polytetrafluoroethylene (PTFE) is a synthetic fluoropolymer showing excellent thermal and electrical insulation properties and a low coefficient of friction. Due to its large stability, and hydrophobic nature, the wettability of PTFE surfaces can be reduced to transform them into superhydrophobic. In this regard, laser texturing is a fast, simple and versatile method to produce superhydrophobic PTFE surfaces in one-step, and over large areas. In this work, we used a CO2 laser to modify the surface of PTFE samples. We studied the effect of the processing parameters (laser power or irradiance, scanning speed, and spacing -overlapping- between scan lines) on the wettability of textured surfaces using water, mineral oil and ethanol/water solutions as test fluids. Laser-treated surfaces showed a hierarchical micro- and nanotopography with a cotton-like appearance. The higher roughness and large quantity of air pockets make these laser-treated surfaces superhydrophobic, and highly oleophobic. Furthermore, they remain unaltered after being in contact with strong alkali and acid solutions or after slight friction. The self-cleaning performance of these surfaces was also demonstrated. The present findings suggest that CO2 laser texturing of PTFE is suitable for the large-scale preparation of surfaces with low-wettability to different liquids.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2020.145984