Radiative cooling has emerged as a sustainable strategy for passive thermal management,offering a promising route to reduce global energy demand and mitigate the effects of climate change[1-3].By leveraging the atmosp...Radiative cooling has emerged as a sustainable strategy for passive thermal management,offering a promising route to reduce global energy demand and mitigate the effects of climate change[1-3].By leveraging the atmospheric window in the mid-infrared region(8-13μm),thermal radiation can be emitted directly into outer space,enabling cooling without the need for power input[4].This approach,grounded in fundamental thermodynamic principles,has attracted significant attention in various fields,including materials science,photonics,architecture,and atmospheric physics[5].展开更多
基金supported by the National Natural Science Foundation of China(T2425018,U2441275,and 62175082)the Interdisciplinary Research Program of HUST(2023JCYJ039)+1 种基金the Innovation Fund of Wuhan National Laboratory for Optoelectronicsthe support from the New Cornerstone Science Foundation through the XPLORER PRIZE。
文摘Radiative cooling has emerged as a sustainable strategy for passive thermal management,offering a promising route to reduce global energy demand and mitigate the effects of climate change[1-3].By leveraging the atmospheric window in the mid-infrared region(8-13μm),thermal radiation can be emitted directly into outer space,enabling cooling without the need for power input[4].This approach,grounded in fundamental thermodynamic principles,has attracted significant attention in various fields,including materials science,photonics,architecture,and atmospheric physics[5].
