Construction of organic compatible kaolinite antibacterial material via a dry process and its enhanced antibacterial activity

In today’s world of antibiotic abuse and bacterial resistance, it is urgent to propose a non-antibiotic solution against bacterial wound infections. Hence, the present work prepared kaolinite (KAO)-based organic antibacterial material (CA/KAO) modified with chlorhexidine acetate (CA) via a dry process. And the potential of CA/KAO in the doping preparation of antibacterial wound dressings was evaluated with poly(vinyl alcohol) (PVA) as an organic matrix. The results demonstrated that a synergistic promotion system between CA and kaolinite was formed. Kaolinite optimized the thermal stability of CA and controlled it to achieve a demand-oriented release mode of “burst + slow” release. CA was mainly attached to the surface of kaolinite by hydrogen bonding to impart its antibacterial properties and enhanced organic compatibility. For Staphylococcus aureus ( S. aureus ), which is prone to induce wound infections, CA/KAO showed a low-level MIC of 11.72 mg/L and achieved a 98.37% antibacterial rate by contact inactivation and released CA sterilization. CA/KAO was homogeneously dispersed in PVA film and achieved inhibition zones of 15.393 mm and 12.663 mm against S. aureus and Escherichia coli (E. coli) , respectively, at 30 wt% doping. It is expected that CA/KAO would be an option for the mass production of antibacterial wound dressings.