Organic-inorganic hybrid-modified polyester/cotton fabric: Strategy for enhanced flame retardancy, chemical stability and amphiphobicity

As surface treatments for the application of functional components to substrates have gained increasing attention, there is a growing interest in endowing fabrics with multiple functionalities in addition to flame retardancy. This study describes the successful formation of a fluorination treatment of Al2O3 cross-linked onto the surface of a self-assembled PEI/PA coating for polyester/cotton (PC) fabrics. This coating approach aims to improve the flame retardancy, amphiphobicity, chemical stability, and self-cleaning properties of PC fabrics. The treated fabrics demonstrated exceptional fire resistance, with a significant reduction of 55.4 % in the peak heat release rate (pHRR) during combustion. Correspondingly, there was a decrease of 53.8 % in the peak release rate of CO2, while the limiting oxygen index increased from 17.9 % to 30.4 %. Additionally, the contact angles of water, glycol, and peanut oil droplets before and after treatment increased from 20.4°, 65.1°, and 34.6° to 146.0°, 143.1°, and 97.9°, respectively. The coating exhibits durable self-cleaning performance in both ambient and hot water and remains stable across a pH range of 1–14. This research offers a viable pathway for achieving flame retardancy on fabrics while enhancing their multifunctionality. [Display omitted] •Organic-inorganic hybrid modified PC coating was successfully prepared.•Organic-inorganic hybrid coating enables PC to have excellent flame retardancy.•Organic-inorganic hybrid coating effectively inhibits the spread of flames.•Organic-inorganic hybrid coating imparts multifunctionality to PC.