材料科学
多孔性
白天
复合材料
多孔介质
化学工程
废物管理
辐射冷却
环境科学
原材料
作者
Q. Yang,Yujie Zheng,Luyao Wei,Huijing Gong,Yuchen Mao,Shenglong Shang
标识
DOI:10.1021/acsapm.6c00096
摘要
Passive radiative cooling is an innovative technology capable of cooling objects without the need for external energy input. It dissipates heat from objects into outer space (∼3 K) in the form of infrared radiation by using the atmospheric transparent window. Polymers are commonly applied in radiative cooling technology, but their nondegradability and limited functionality restrict their widespread application. In this paper, a porous polylactic acid (PLA)/cotton composite fabric, as a recyclable passive radiative cooling material, is prepared by a freeze-drying method. The incorporation of zinc oxide (ZnO) nanoparticles enhanced the fabric’s performance, achieving an emissivity of 87.92% and a reflectivity of 87.15%. Additionally, the porous composite fabric exhibited exceptional antibacterial properties, with antibacterial rates of 99.68% against Escherichia coli, 100% against Staphylococcus aureus, and 100% against Candida albicans. In addition, the porous PLA/cotton fabric also demonstrates excellent self-cleaning properties and chemical recyclability. This recyclable porous biomass with integrating antibacterial, self-cleaning, and radiative cooling functions will pave a sustainable way for developing sustainable passive radiative cooling fabric materials with multifunctions.
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