材料科学
辐射冷却
辐射传输
热辐射
工程物理
光电子学
纳米技术
热力学
光学
物理
工程类
作者
Yuancong Dai,Yibo Zhang,Zhiwei Ye,Zhenyu Zhu,Luhai Yang,Yuhao Wei,Hongmei Qin,Chuanxi Xiong
标识
DOI:10.1021/acsami.4c22102
摘要
Recent advancements in radiative cooling technologies have highlighted their potential as sustainable and environmentally friendly cooling solutions. However, while this method offers significant energy savings during hot seasons, it may incur energy losses (overcooling leads to a waste of cooling energy) in colder conditions. The current solution has the problems of a complex process or easy leakage of materials. To address this challenge, we synthesized a SiO2 nanohybrid (a SiO2 nanoparticle with elongated polymer chains grafted onto its surface), which modifies the thermoresponsive behavior of radiative cooling composites. Upon incorporation of these nanohybrids into the radiative cooling matrix, it will display significant morphological changes in response to temperature variations, leading to changes in the emissivity of the resulting composite film. What’s more, the reflectivity of the composite film was enhanced from 57.26 to 89.37%, increasing the cooling performance by 4 °C in hot weather. Results confirmed that the composite film maintained structural integrity without leakage, demonstrating a robust durability. Overall, the synthesized SiO2 nanohybrids in this work will offer valuable insights for advancing radiative cooling applications.
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