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A Novel BST@TPU Membrane with Superior UV Durability for Highly Efficient Daytime Radiative Cooling
Advanced Functional MaterialsPassive radiative cooling technologies play an integral role in advancing sustainable development. While the potential of polymer‐based radiative cooling materials is increasingly recognized, they often degrade under prolonged ultraviolet (UV) radiation ...
Xin Li +8 more
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Flexible Photonic Radiative Cooling Films: Fundamentals, Fabrication and Applications
Advanced Functional Materials, 2023Photonic structures designed at sub‐wavelength scales have emerged as a promising avenue for various energy applications, including cooling devices, water harvesting, photovoltaics, and personal thermal management, which have significantly transformed ...
W. Xie +7 more
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ACS Nano
Passive radiative cooling (PRC) has been acknowledged to be an environmentally friendly cooling technique, and especially artificial photonic materials with manipulating light-matter interaction ability are more favorable for PRC.
Jiajun He +5 more
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Passive radiative cooling (PRC) has been acknowledged to be an environmentally friendly cooling technique, and especially artificial photonic materials with manipulating light-matter interaction ability are more favorable for PRC.
Jiajun He +5 more
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High-Performance Radiative Cooling Sunscreen
Nano LettersRadiative cooling is a zero-energy-consumption cooling technology that shows great potential for outdoor human thermal management. To keep human skin comfortable in hot days, we herein develop a radiative cooling (RC) sunscreen that exhibits a low ultraviolet (UV) transmissivity (4.86%), a high solar reflectivity (90.19%), and a high mid-infrared ...
Jiaqi Xu +8 more
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Switchable and Tunable Radiative Cooling: Mechanisms, Applications, and Perspectives.
ACS NanoThe cost of annual energy consumption in buildings in the United States exceeds 430 billion dollars ( Science 2019, 364 (6442), 760-763), of which about 48% is used for space thermal management (https://www.iea.org/reports/global-status-report-for ...
Xuzhe Zhao +3 more
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Emerging Materials and Strategies for Passive Daytime Radiative Cooling.
Small, 2023In recent decades, the growing demands for energy saving and accompanying heat mitigation concerns, together with the vital goal for carbon neutrality, have drawn human attention to the zero-energy-consumption cooling technique.
Wei Gao, Yongping Chen
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Radiative cooling of fullerenes
The Journal of Chemical Physics, 1996We have measured the metastable fragmentation of fullerene ions in molecular beams. The rates are significantly smaller than the evaporative ensemble prediction, consistent with an alternative cooling mechanism through emission of electromagnetic radiation.
K. Hansen, E. E. B. Campbell
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Reversed Yolk–Shell Dielectric Scatterers for Advanced Radiative Cooling
Advanced Functional MaterialsPassive daytime radiative cooling dissipates heat from surfaces by reflecting sunlight and emitting infrared radiation to the cold outer space, featuring a zero‐energy consumption.
Pengli Li +13 more
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Advanced Functional Materials
Porous photonic structures have greatly advanced large‐scale radiative cooling application owing to its satisfying optical properties, easy‐designation, and low cost.
Jinru Liu +7 more
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Porous photonic structures have greatly advanced large‐scale radiative cooling application owing to its satisfying optical properties, easy‐designation, and low cost.
Jinru Liu +7 more
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Transparent radiative cooling cover window for flexible and foldable electronic displays
Nature CommunicationsTransparent radiative cooling holds the promise to efficiently manage thermal conditions in various electronic devices without additional energy consumption.
Kang Won Lee +3 more
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