Multifunctional PtCuTe Nanosheets with Strong ROS Scavenging and ROS-Independent Antibacterial Properties Promote Diabetic Wound Healing

Yaru Guo, Shuai Ding, Changshuai Shang, Chenguang Zhang, Menggang Li, Qinghua Zhang, Lin Gu, Boon Chin Heng, Shihan Zhang, Feng Mei, Ying Huang, Xuehui Zhang, Mingming Xu, Jiuhui Jiang, Shaojun Guo, Xuliang Deng, Lili Chen

Research output: Contribution to journalArticlepeer-review

14 Scopus citations


Nanozymes, as one of the most efficient reactive oxygen species (ROS)-scavenging biomaterials, are receiving wide attention in promoting diabetic wound healing. Despite recent attempts at improving the catalytic efficiency of Pt-based nanozymes (e.g., PtCu, one of the best systems), they still display quite limited ROS scavenging capacity and ROS-dependent antibacterial effects on bacteria or immunocytes, which leads to uncontrolled and poor diabetic wound healing. Hence, a new class of multifunctional PtCuTe nanosheets with excellent catalytic, ROS-independent antibacterial, proangiogenic, anti-inflammatory, and immuno-modulatory properties for boosting the diabetic wound healing, is reported. The PtCuTe nanosheets show stronger ROS scavenging capacity and better antibacterial effects than PtCu. It is also revealed that the PtCuTe can enhance vascular tube formation, stimulate macrophage polarization toward the M2 phenotype and improve fibroblast mobility, outperforming conventional PtCu. Moreover, PtCuTe promotes crosstalk between different cell types to form a positive feedback loop. Consequently, PtCuTe stimulates a proregenerative environment with relevant cell populations to ensure normal tissue repair. Utilizing a diabetic mouse model, it is demonstrated that PtCuTe significantly facilitated the regeneration of highly vascularized skin, with the percentage of wound closure being over 90% on the 8th day, which is the best among the reported comparable multifunctional biomaterials.

Original languageEnglish
Article number2306292
JournalAdvanced Materials
Issue number8
StatePublished - 22 Feb 2024
Externally publishedYes


  • angiogenesis
  • diabetes mellitus
  • nanosheets
  • reactive oxygen species
  • wound healing


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