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In‐situ reduction method to build Chitosan@silver nanoparticles and its application for bis(2‐hydroxyethyl) terephthalate‐based polyurethane composite films with excellent antibacterial and mechanical properties

Herein, an efficient and rapid one‐step approach to construct CS@Ag nanohybrids through in‐situ reduction of AgNO3 with L‐ascorbic acid using chitosan (CS) as carrier only at room temperature was presented.… Click to show full abstract

Herein, an efficient and rapid one‐step approach to construct CS@Ag nanohybrids through in‐situ reduction of AgNO3 with L‐ascorbic acid using chitosan (CS) as carrier only at room temperature was presented. Novel polyurethane/CS@Ag composite films with remarkable properties were fabricated via the reaction of CS@Ag nanohybrid as an antibacterial and reinforcing agent with bis(2‐hydroxyethyl) terephthalate (BHET)‐based polyurethane. With the increase of CS@Ag content, the antibacterial rate for polyurethane against Staphylococcus aureus and Escherichia coli increases. The antibacterial rate of polyurethane with 20 phr CS@Ag against S. aureus is 85.5%, and that containing 30 phr CS@Ag against E. coli is 94.9%. Thereby, the synergistic effect of CS and Ag can effectively improve the antibacterial rate of polyurethane. Meanwhile, the bond strength and tensile strength of polyurethane containing 20 phr CS@Ag are up to 8.72 MPa (improved by 74.3%) and 20.1 MPa (enhanced by 130.5%), respectively. Indeed, this work may unlock new possibilities for developing antibacterial and enhanced polyurethanes, which are expected to applied in the medical devices, food packaging, and automotive industries.

Keywords: hydroxyethyl terephthalate; polyurethane; bis hydroxyethyl; composite films; polyurethane composite; situ reduction

Journal Title: Polymer Composites
Year Published: 2024

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