A natural polysaccharide-based antibacterial functionalization strategy for liquid and air filtration membranes

Filtration membranes are widely applied in medical fields. However, these membranes are challenged by bacterial contamination in hospitals, which increases the risk of nosocomial infections. Thus, it is significant to develop antibacterial filtration membranes. In this work, an oxidated dextran (ODex)-based antibacterial coating was designed and constructed on microfiltration (MF) membranes and melt-blown fabrics. Polyhexamethylene guanidine (PHMG) was synthesized as an antibacterial agent, and was fixed by ODex onto filtration membranes. The functionalized MF membranes increased the filtration efficiency for E. coli from 20.9% to 99.9%, and improved the absorption ratio for endotoxin by 59.1%, while the water flow rate still remained as high as 5255 L (h m(2))(-1). Furthermore, the trapped bacteria were inactivated by the antibacterial coating. For the melt-blown fabrics, the aerosol filtration efficiency was increased from 74.6% to 81.0%, and the antibacterial efficiency was promoted to 92.0%. The present work developed a facile and universal antibacterial functionalization strategy for filtration membranes, which provided a new method for the design and development of various novel antibacterial filtration materials in the medical field.

Automated summary

The study developed an antibacterial coating based on oxidated dextran (ODex) for microfiltration membranes and melt-blown fabrics, increasing filtration efficiency for E. coli and absorption ratio for endotoxin while maintaining high water flow rate. The trapped bacteria were inactivated by the antibacterial coating, and the aerosol filtration efficiency and antibacterial efficiency of melt-blown fabrics were improved.