材料科学
织物
发射率
杰纳斯
磨损(机械)
电子设备和系统的热管理
纳米技术
热保护
热舒适性
热的
反射(计算机编程)
低发射率
光催化
机械工程
反射率
太阳能
工艺工程
红外线的
高效能源利用
热能
仿生学
热辐射
工程物理
能源管理
系统工程
建筑工程
作者
Yang Chen,Feng Gao,Rumin Liu,Jiayi Zhao,Yaping Qu,Zheng Cao,Lina Song,Liu Ziqiang,Jianguo Lu,Xiaoli Zhan,Qinghua Zhang,Yang Chen,Feng Gao,Rumin Liu,Jiayi Zhao,Yaping Qu,Zheng Cao,Lina Song,Liu Ziqiang,Jianguo Lu
标识
DOI:10.1002/adfm.202523292
摘要
Abstract Textiles capable of passive thermal management offer a sustainable approach to personal comfort and energy conservation. Despite advances in material design, achieving simultaneous thermal‐moisture regulation, durability, and antimicrobial protection remains challenging. Here, a multifunctional metafabric fabricated is presented via in.situ synthesis and dip‐coating, which combines high solar reflectivity (91.2%) and infrared emissivity (96.6%) for efficient radiative cooling. The fabric exhibits exceptional antimicrobial efficacy (>99.5% against Staphylococcus aureus ( S. aureus ) and Escherichia coli ( E. coli )) without compromising thermal performance. Mechanical testing confirms outstanding durability, with minimal mass loss (<2.3%) and stable thermal properties after 120 abrasion cycles. This robust, multifunctional textile provides a practical solution for personal thermal management across diverse environments while mitigating microbial contamination risks.
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