Enhanced radiative cooling paint with broken glass bubbles
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DOI: 10.1016/j.renene.2022.05.094
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- Jeong, Shin Young & Tso, Chi Yan & Ha, Jimyeong & Wong, Yuk Ming & Chao, Christopher Y.H. & Huang, Baoling & Qiu, Huihe, 2020. "Field investigation of a photonic multi-layered TiO2 passive radiative cooler in sub-tropical climate," Renewable Energy, Elsevier, vol. 146(C), pages 44-55.
- Aaswath P. Raman & Marc Abou Anoma & Linxiao Zhu & Eden Rephaeli & Shanhui Fan, 2014. "Passive radiative cooling below ambient air temperature under direct sunlight," Nature, Nature, vol. 515(7528), pages 540-544, November.
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- Li, Haoran & Zhang, Kai & Shi, Zijie & Jiang, Kaiyu & Wu, Bingyang & Ye, Peiliang, 2023. "Cooling benefit of implementing radiative cooling on a city-scale," Renewable Energy, Elsevier, vol. 212(C), pages 372-381.
- Seo, Junyong & Choi, Minwoo & Yoon, Siwon & Lee, Bong Jae, 2023. "Climate-dependent optimization of radiative cooling structures for year-round cold energy harvesting," Renewable Energy, Elsevier, vol. 217(C).
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Keywords
Radiative cooling; Broken bubbles; Cooling paint; Glass bubbles; Nanoporous polyethylene;All these keywords.
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