Nanocellulose/Poly(vinyl alcohol)@Phase Change Microcapsule Aerogel Inspired by Wood for Adaptive Radiative Cooling in Buildings

气凝胶 材料科学 复合材料 辐射传输 辐射冷却 热辐射 电子设备和系统的热管理 纳米技术 相变 化学工程
作者
X Li,Yimin Shi,X Li,Zhichen Ba,Haobo Fan,Shengkai Liu,Hui Li,Junreng Liu,Zefang Xiao,Tai Peng,Daxin Liang,Hongbo Xü,Yanjun Xie
出处
期刊:ACS Sustainable Chemistry & Engineering [American Chemical Society]
卷期号:14 (17): 8057-8070
标识
DOI:10.1021/acssuschemeng.5c12636
摘要

Radiative cooling, as an emerging energy-saving technology, can achieve zero-energy passive cooling. However, existing research has focused only on enhancing radiative heat dissipation, resulting in severe overcooling at night and difficulty in adapting to daytime temperature fluctuations. Combining radiative cooling materials with phase change energy storage materials can effectively address this problem. Inspired by the layered porous structure of wood, this study selected carboxylated nanocellulose and poly(vinyl alcohol) as the aerogel matrix and used directional freezing technology to form vertically aligned channels that mimic the orientation of wood microfibers. Subsequently, phase change microcapsules synthesized via the Pickering emulsion method were integrated. This integrated design achieves dual functions: during the day, the high solar reflectance (96.94%) and high emissivity (94.67%) of the biomimetic structure work synergistically with the endothermic effect of the phase change material, enabling the aerogel to achieve efficient cooling with an average temperature reduction of 10.6 °C; at night, the phase change material releases stored heat to mitigate overcooling with an average temperature increase of 2.2 °C. In addition, the directional freezing process endows the aerogel with lightweight and high-strength properties (compressive strength of approximately 35 MPa), making it suitable for building insulation layers. This study achieves the synergistic integration of radiative cooling, phase change energy storage, and biomimetic structural design, providing an efficient and stable solution for adaptive building thermal management and promoting the practical application of “zero-energy buildings.”
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