Download This PaperFabrication of Organic-Inorganic Nonhomogeneous Nanocomposite Coating with Enhanced Antifogging Properties
15 Pages Posted: 14 Oct 2023
Abstract
Antifogging coatings with superhydrophilic performance by manipulating composition and structure have obtained significant consideration over recent years attributed to their ability to readily form a thin water film, which does not deteriorate light transmission. In this work, an advanced organic-inorganic nonhomogeneous antifogging coating has been successfully fabricated. The bottom layer was comprised of silica nanoparticles, forming the three-dimensional (3D) network skeleton via the condensation of silicon hydroxyl, which enhanced the water resistance ability of the coating; while the top layer was formed by silica-polymer nanocomposite, which conferred the coating good antifogging capability due to its abundant hydrophilic groups. The composite coating exhibited size-dependent surface properties, when the average particle size of silica was 10 nm, the nanocomposite coating exhibited remarkable antifogging and frost-resisting properties. Furthermore, the composite coating also showed higher stability than the pure polymer coating, and it remained outstanding antifogging performance after soaking in water for 6 hours, or 120 hours of exposure to UV irritation.
Keywords: antifogging, superhydrophilic, organic-inorganic composite coating, silica nanoparticles
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