Herein, eco-friendly iron titanate nanoparticles, FeTiO3 (FT), derived from natural resources (like ilmenite sand) were coated onto cotton fabrics (CF) to develop smart textile with enhanced UV-shielding property. The FT nanoparticles were dispersed in a polyurethane (PU) matrix, and the resulting nanocomposite was coated on CF. In addition, few sandwich architectures were designed by rationally stacking CF coated with PU and FT nanoparticles. The resulting sandwich structures blocked UV rays mainly by absorption. FT nanoparticles were comprehensively characterized by X-ray diffraction, scanning electron microscopy, transmission electron microscopy, UV–vis, vibrating sample magnetometer, and thermogravimetric analysis. FT was suitably surface-functionalized to enhance the quality of dispersion in PU, thereby facilitating effective coating on CF. The latter was systematically evaluated by microscopic and spectroscopic techniques. In addition, flammability of the coated CF was evaluated and the char was assessed to gain insight into the fire-retardant properties. Interestingly, CF coated with FT exhibiteda strong UV-shielding ability in sharp contrast to CF coated withPU. Further, the sandwich architecture consisting of CF with FT andPU resulted in an increase in the ultraviolet-protecting factor valueto >50 compared to only PU-coated CF. Our results indicate thatthesandwich structure holds excellent promise in the quest of designingsmart textiles with enhanced UV shielding.
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