CuO2-assisting-Zn single atom hybrid nanozymes for biofilm-infected wound healing

  • Impact factors: 15.1
  • Publication: CHEMICAL ENGINEERING JOURNAL
  • Author:Junyao Song, Haoyu Chen, Yaqian Lv, Wanqun Yang, Fenglang Zhang, Tianyi Wang, Danping Liu, Yingshan Qu, Lei Han, Jun Fu, Xiaoying Kong
  • DOI citation-doi:10.1016/j.cej.2023.145706
  • Date:2023-08-29

Single-atom catalysts (SACs), characterized by atomically dispersed single metal atoms, provide superior antibacterial properties over common nanozyme materials due to their satisfactory catalytic activity. However, when used for the treatment of biofilm-infected wounds, SACs are still unable to effectively solve severe microbial infection due to the insufficient supply of reactive oxygen species (ROS). Herein, a new hybrid nanozymes consisting of Zn single-atom catalysts and copper peroxide (Zn SACs@CuO 2 ) were prepared to realize the upgrading of ROS generation and the combination of photothermal/chemodynamic (PTT/CDT) therapy for biofilm-infected wound. Specifically, CuO 2 exhibited not only excellent photothermal property, but also H 2 O 2 -producing and Fenton-like catalytic activities, which assisted Zn SACs to accelerate the ·OH conversion of endogenous and exogenous H 2 O 2 . Compared with single antimicrobial strategies of Zn SACs, Zn SACs@CuO 2 hybrid nanozymes exhibited stronger therapeutic effects of biofilm destruction, immune activation and inflammation improvement. In conclusion, this work developed a hybrid single atom nanozyme material with for efficient biofilm-infected wound healing.

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