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Snowflake-like Cu2O-Pt nanocluster-mediated Fenton photothermal and chemodynamic therapy for antibiotic wound healing.

The Fenton reaction serves as the fundamental mechanism behind chemodynamic therapy (CDT), wherein highly reactive hydroxyl radicals (˙OH) are produced to efficiently induce bacterial cell death. On the other hand,… Click to show full abstract

The Fenton reaction serves as the fundamental mechanism behind chemodynamic therapy (CDT), wherein highly reactive hydroxyl radicals (˙OH) are produced to efficiently induce bacterial cell death. On the other hand, photothermal therapy (PTT) utilizes photosensitizers to absorb specific wavelengths of light, generating localized heat that disrupts bacterial cell membranes, leading to bactericidal effects. In this study, platinum nanoparticles (PtNPs) were successfully doped onto the surface of hexapodal cuprous oxide (HCu2O), resulting in the synthesis of hexapodal snowflake-like Cu2O-Pt nanoparticles (HCPNLs). These HCPNLs synergistically combine the mechanisms of CDT and PTT, significantly enhancing antibacterial efficacy. In vitro antimicrobial experiments have demonstrated that HCPNLs exhibit strong antimicrobial activity against both Gram-positive Staphylococcus aureus (S. aureus) and Gram-negative Escherichia coli (E. coli). Additionally, HCPNLs effectively disrupted biofilm formation and improved tissue penetration. In a murine model of mixed bacterial infection, HCPNLs showed excellent synergistic antimicrobial effects, significantly promoting wound healing with minimal toxicity. Overall, the unique properties of HCPNLs provide a novel option for non-resistant antimicrobial therapy in biomedical applications.

Keywords: snowflake like; therapy; wound healing; fenton; chemodynamic therapy; like cu2o

Journal Title: Biomaterials science
Year Published: 2025

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