Polysiloxane Sheltered Nanoparticle-Containing Intercalated Nanolayers

Abstract

In previous researches, we have reported using cross-linkable polysiloxane (XPs) as a guideline for the design of a novel technique to stabilize different nanostructures on the textile surfaces. This followed by creating multiple-size nano-roughness on the textile surfaces using oppositely charged inorganic nanoparticles and cross-linkable polysiloxane resin to develop durable multifunctional textiles. In present study, creating multiple-size nano-roughness on the textile surfaces has been targeted via using nano-layers accompanied with nanoparticles for the textile modifications. A colloidal solution of nanoparticle-containing intercalated nanolayers has been prepared via pre-mixing of nanoparticles and nanolayers under ultrasound irradiation. Then, fabrics have been treated with the colloidal solution via the ultrasound–assistant exhaustion process. To compare the effect of combining nanoparticles and nanolayers, some samples were also produced in the absence of each component. Then, cross-linkable polysiloxane resin has been applied as a post-treatment on the nano-functionalized fabrics. The hydrophobic features of modified fabrics have been examined. According to the results, water droplet absorption time and contact angle of water droplets have been significantly increased via using the nanoparticle-containing intercalated nanolayers. When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/35374