On-Uma Nimittrakoolchai scite author profile

Superhydrophobic films mainly based on poly(allylamine hydrochloride) (PAH) and poly(acrylic acid) (PAA) polyelectrolyte multilayer have been deposited onto cleaned glass substrate by a layer‐by‐layer dip coating method. 3 bilayers of the PAH and PAA was directly coated onto the substrate as an underlying layer for subsequent coating. Desired surface roughness on the polyelectrolyte bilayers was created by etching the bilayers in hydrochloric acid solution so as to create the open pore having suitable size at the surface. Then, nanoparticles such as SiO2 and TiO2 of various sizes were deposited onto the etched polyelectrolyte bilayers. Finally, the surfaces were further modified with semifluorinated silane followed by cross‐linking at 180 °C for 2 h to obtain desirable surface morphological features. The effect of etching time and addition of nanoparticles on surface morphology was investigated using an atomic force microscope (AFM). Wetting ability of the prepared film was determined by measuring water droplet contact angle using a goniometer. Adhesion between the superhydrophobic films and the substrate was evaluated by using a standard tape test method (D3359). The adhesion was improved by reducing the organic content in the films.

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Facile method to prepare magnetic multi-walled carbon nanotubes by in situ co-precipitation route

Sowichai

Supothina

Nimittrakoolchai

et al. 2012

Journal of Industrial and Engineering Chemistry

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On-Uma Nimittrakoolchai

Deposition of organic-based superhydrophobic films for anti-adhesion and self-cleaning applications

High-yield precipitation synthesis of tungsten oxide platelet particle and its ethylene gas-sensing characteristic

Surface characteristics of water-repellent polyelectrolyte multilayer films containing various silica contents

Polymer‐Based Superhydrophobic Coating Fabricated from Polyelectrolyte Multilayers of Poly(allylamine hydrochloride) and Poly(acrylic acid)

Facile method to prepare magnetic multi-walled carbon nanotubes by in situ co-precipitation route

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