Preparation of crosslinked polysiloxane/SiO2 nanocomposite via in-situ condensation and its surface modification on cotton fabrics

Abstract

Novel crosslinked polysiloxane/SiO2 nanocomposite (CLPS-SiO2) was successfully prepared via the in-situ condensation reaction of silica sols and crosslinked polysiloxane with end-capped triethoxysilane in solvent, which was firstly fabricated through the modification of our previously developed crosslinked polysiloxane with end-capped epoxy groups using aminopropyltriethoxysilane (APTES) and noted as APTES-CLPS. Chemical structures and thermal properties of the as-prepared resultants were characterized by Fourier transform infrared spectroscopy (FTIR), nuclear magnetic resonance spectra (1H/13C NMR) and thermogravimetric analysis (TGA). CLPS-SiO2 was applied as surface modification agent to treat cotton fabrics. Film morphologies and surface properties were examined with scanning electron microscopy (SEM), atomic force microscopy (AFM), X-ray photoelectron spectroscopy (XPS), contact angle measurements, and other instruments. FTIR and NMR confirmed structure of the products. CLPS-SiO2 showed better thermal stability than APTES-CLPS due to anchor of the nanosilica. APTES-CLPS could deposit a smooth film on cotton fiber surface. Besides, CLPS-SiO2 also coated the fibers with many nano-scaled tubercles beneath this smooth film by SEM. However, the APTES-CLPS film and the CLPS-SiO2 film on silicon-wafer were never homogeneous and had a few low or high peaks. The root mean square roughness (Rq) of APTES-CLPS film reached to 0.441nm in 2×2μm2 scanning field and at 5nm data scale. Owing to the incorporation of nanosilica, that of CLPS-SiO2 film continuously increased and could attain 4.528nm in 2×2μm2 scanning field and at 20nm data scale. XPS analysis further demonstrates that there was a CLPS-SiO2 film covered on the cotton surface and the silyl groups had the tendency to enrich at the film–air interface. In addition, hydrophobicity of the CLPS-SiO2 treated fabric would be enhanced with augment of the amount of nanocomposite. Water contact angle of this fabric could finally attain 158.0°. But most of all, its color and softness would not be influenced instead. The CLPS-SiO2 treated fabric possessed good washing durability.