材料科学
辐射冷却
聚二甲基硅氧烷
制作
热导率
热的
辐射传输
危险废物
保温
复合材料
环境科学
纳米技术
废物管理
光学
气象学
图层(电子)
物理
工程类
病理
替代医学
医学
作者
Lyu Zhou,Jacob Rada,Huafan Zhang,Haomin Song,Seyededriss Mirniaharikandi,Boon S. Ooi,Qiaoqiang Gan
标识
DOI:10.1002/advs.202102502
摘要
Radiative cooling is an emerging cooling technology that can passively release heat to the environment. To obtain a subambient cooling effect during the daytime, chemically engineered structural materials are widely explored to simultaneously reject sunlight and preserve strong thermal emission. However, many previously reported fabrication processes involve hazardous chemicals, which can hinder a material's ability to be mass produced. In order to eliminate the hazardous chemicals used in the fabrication of previous works, this article reports a white polydimethylsiloxane (PDMS) sponge fabricated by a sustainable process using microsugar templates. By substituting the chemicals for sugar, the manufacturing procedure produces zero toxic waste and can also be endlessly recycled via methods widely used in the sugar industry. The obtained porous PDMS exhibits strong visible scattering and thermal emission, resulting in an efficient temperature reduction of 4.6 °C and cooling power of 43 W m-2 under direct solar irradiation. In addition, due to the air-filled voids within the PDMS sponge, its thermal conductivity remains low at 0.06 W (m K)-1 . This unique combination of radiative cooling and thermal insulation properties can efficiently suppress the heat exchange with the solar-heated rooftop or the environment, representing a promising future for new energy-efficient building envelope material.
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