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Effective Radiative Cooling by Paint-Format Microsphere-Based Photonic Random Media

2018; American Chemical Society; Volume: 5; Issue: 4 Linguagem: Inglês

10.1021/acsphotonics.7b01492

2330-4022

Sarun Atiganyanun, John B. Plumley, Seok Jun Han, Kevin Hsu, Jacob Cytrynbaum, Thomas Peng, Sang M. Han, Sang Eon Han,

Atmospheric aerosols and clouds

We demonstrate that photonic media, when properly randomized to minimize the photon transport mean free path, can be used to coat a black substrate and reduce its temperature by radiative cooling. Even under strong solar radiation, the substrate temperature could reach substantially below that of the ambient air. Our random media that consist of silica microspheres considerably outperform commercially available solar-reflective white paint for daytime cooling. We have achieved the outstanding cooling performance through a systematic study on light scattering, which reveals that the structural parameters of the random media for maximum scattering are significantly different from those of the commercial paint. We have created the random media to maximize optical scattering in the solar spectrum and to enhance thermal emission in the atmospheric transparency window. In contrast to previous studies, our random media do not require expensive processing steps or materials, such as silver, and can be applied to almost any surface in a paint format. The facile and scalable processing steps for our random media point to the possibility that low-cost coatings can be used for efficient radiative cooling.