复合数
材料科学
热的
PEG比率
复合材料
化学工程
业务
工程类
财务
物理
气象学
作者
Meng Tao,Wei Guo,Jixiang Zhang,Cui Liu,Nian Li,Min Xi,Shudong Zhang,Zhenyang Wang
标识
DOI:10.1021/acsanm.5c01480
摘要
Composite fabrics with integrated photothermal conversion, heat collection, and antibacterial properties are urgently needed to enhance personal thermal management in northern cold regions. Herein, a designed sandwich-like structure, in which PEG@SiO2 microcapsules were intercalated into the MXene interlayers (PEG@SiO2/MXene), was proposed to achieve the fast solar-thermal conversion and the surplus solar-generated heat storage and release and even further corresponding fabrics with antibacterial properties for the personal thermal management. Remarkably, the prepared PEG@SiO2/MXene (PSM) exhibited fast solar-to-heat conversion, followed-on heat storage ability, with an average temperature rising rate of 8.1 °C/min under one-sunlight irradiation and a phase change enthalpy of 155.7 J/g. Furthermore, under one-sunlight irradiation, the designed antibacterial composite fabrics with PSM coatings could greatly increase the local working temperature from 1 °C to 27.3 °C compared with the reference traditional cotton fabrics (from only 1 °C to 6.5 °C). This work provides a potential multifunctional composite material/fabric for the development of personal thermal management in outdoor sunlight applications.
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