4.7 Article

Preparation of silicone-PCL composite particles with hierarchical structure and the super-hydrophobic fabrics via directly electrostatic spraying

Journal

SURFACE & COATINGS TECHNOLOGY
Volume 449, Issue -, Pages -

Publisher

ELSEVIER SCIENCE SA
DOI: 10.1016/j.surfcoat.2022.128933

Keywords

Electrostatic spray; Superhydrophobic; Polycaprolactone; Polysilsesquioxane

Funding

  1. National Natural Science Foundation of China
  2. Postgraduate Research & Practice Innovation Program of Jiangsu Province
  3. [51673137]
  4. [KYCX20-2665]

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Microspheres with a rough structure were prepared using blends of poly(epsilon-caprolactone) and ladder-like fluorinated polysilsesquioxane via electrostatic spraying, demonstrating excellent superhydrophobicity with optimized spraying and blending ratio. The finished cotton fabric coated with the microspheres showed excellent hydrophobicity and self-cleaning function, with good mechanical stability after sandpaper abrasion and adhesion tests.
Herein, microspheres with a rough structure were prepared via electrostatic spraying, using a spray solution prepared by dissolving poly(epsilon-caprolactone) (PCL) and ladder-like fluorinated polysilsesquioxane (F-PH-LPSQ) blends in chloroform. The effects of concentration, voltage, flow rate, receiving distance and blending ratio on the morphology and particle size distribution of the microspheres were investigated. The microsphere spray coatings prepared under different blending ratios were tested: the results demonstrate that the contact angles of the coatings all exceeded 150 degrees, the rolling angles were all smaller than 1 degrees and the adhesion forces were all <51 mu N, thus displaying excellent superhydrophobicity. The formation mechanism of the 'roughened' microsphere morphology was explored by analysing the energy dispersive spectroscopy results and element content of the protruding and pitted parts of the sprayed particles. The spraying and blending ratio was optimised and determined to be 1.0:0.4. Subsequently, the PCL/F-PH-LPSQ microspheres were directly sprayed and coated with the developed spray solution via electrostatic spraying. The water contact angle of the finished cotton fabric was found to be >= 160 degrees, which provided excellent hydrophobicity and self-cleaning function. Following the sandpaper abrasion and adhesion tests, the contact angle of the fabrics coated with the microspheres remained >= 155 degrees, indicating a good mechanical stability.

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