Diabetic Wound Healing Enabled by a Tri‐Functional MAX Phase via Cu Doping
Mei Yang, Shuairu Zhu, Qiang Zhou, Youbing Li, Chuanmin Tao, Mi Su, Zhonghao Wang, Hongwei Xu, Imran Shaki, Hao Chen, Xuping Sun, Binwu YingABSTRACT
Due to complex pathological features and difficulty in healing wounds caused by diabetes, effective therapeutic agents and strategies remain elusive. Herein, we report on the development of Cu‐doped single‐phase Nb 2 (Sn 0.7 Cu 0.3 )C MAX as a tri‐functional therapeutic material for diabetic wound healing. The stable Nb‐C lattice facilitates near‐infrared plasmonic photothermal therapy, physically disrupting bacterial structures. Controllable Cu 2 + release mimics endogenous metal ion signaling, disrupting TCA metabolism to induce bacterial cuproptosis. Meanwhile, Cu 2 + also promotes regenerative macrophage phenotype and reduces excessive neutrophil activation. The Nb 4d‐C 2p orbital hybridization simulates VEGF functionality to mediate angiogenesis. In vivo experiments demonstrate that Nb 2 (Sn 0.7 Cu 0.3 )C promotes rapid infection clearance, initiating the wound healing process. This is followed by the restoration of immune homeostasis, ultimately leading to effective angiogenesis. Our Nb 2 (Sn 0.7 Cu 0.3 )C overcomes the limitations of single‐targeted therapeutic agents, capable of simultaneously addressing issues such as infection control, inflammation resolution, and tissue regeneration.