伤口愈合
生物医学工程
医学
皮肤修复
材料科学
伤口敷料
人造皮肤
伤口护理
电子设备和系统的热管理
焊接
透气比表面积
脚手架
外科
作者
Shuo Shi,Huiqun Zhou,Yang Ming,Xiong Zhou,Hanbai Wu,Haipeng Ren,Lung Chow,Jing Su,Daming Chen,Bin Fei,Joselito M. Razal,X G 晓光 Wang 王
标识
DOI:10.1007/s40820-026-02240-6
摘要
Abstract Infected wounds can lead to delayed healing, suppuration, and potentially life-threatening complications, making their management critically important. An ideal wound dressing should possess key characteristics such as high protective function, comfortable user experience, and effective antibacterial efficiency. However, a single dressing that integrates all these functions is rarely achieved. Herein, we developed a “bionic cooling skin” for infected wound management based on hierarchical nanofiber construction. This was achieved by integrating solvent welding technology with single-sided metal–organic frameworks (MOFs) that generate visible light-responsive reactive oxygen species (ROS, band gap = 2.56 eV). The designed bionic skin promotes rapid healing of infected wounds, and the healing mechanism has been confirmed by gene analysis. This advanced dressing closely mimics natural skin, exhibiting similar mechanical properties ( σ max = 21.6 MPa; ε max = 54%), and high air and moisture permeability (> 1.8 mL s −1 and > 12.5 kg m −2 d −1 ), respectively. Furthermore, the bionic cooling skin reduces the local temperatures of wounds exposed to sunlight by 4 °C, mitigating heat gain through high mid-infrared emissivity. This innovative bionic wound dressing not only enhances comfort and healing efficacy but also advances our understanding of wound repair mechanisms, holding significant promise for future wound care and biomedical material design.
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