辐射冷却
热发射率
环境科学
辐射传输
热的
材料科学
辐射热
还原(数学)
热辐射
热效率
水冷
反射率
农业
电子设备和系统的热管理
工艺工程
废物管理
可持续农业
环境工程
余热
发射率
被动冷却
蒸发冷却器
微波食品加热
极限抗拉强度
余热回收装置
作者
Zhulin Li (10972400),Xianxian Lin,Tiantian Yu,Yingying Guo,Shuaiming He,C. H. Chen,Ye Wu
标识
DOI:10.1021/acsenergylett.6c00288
摘要
Passive radiative cooling is an emerging strategy for thermal management, yet conventional petroleum-derived coolers suffer from limited cooling performance and poor mechanical robustness, while inorganic alternatives, though efficient, require complex and energy-intensive fabrication. Inspired by the rapid formation and exceptional strength of spider silk, we develop a simple water-triggered multistage self-assembly strategy to fabricate a robust, recyclable, and eco-friendly bioinspired radiative cooler (Biocooler). The Biocooler exhibits high solar reflectance (0.94) and emittance (0.91), yielding an average temperature reduction of 8 °C under direct sunlight. Additionally, it possesses a tensile strength of 76 MPa, surpassing most conventional radiative coolers, and enables over 90% material recovery via water-triggered reassembly. As a soil mulch, the Biocooler reduces soil temperature by 7.2 °C and improves water retention by 61%, effectively mitigating crop heat stress. With its scalable production and durability, the Biocooler offers significant promise for sustainable agriculture applications.
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