Colored and paintable bilayer coatings with high solar-infrared reflectance for efficient cooling

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Publication Date

April 24, 2020

Open Access

Yes

Abstract / Description

Solar reflective and thermally emissive surfaces offer a sustainable way to cool objects under sunlight. However, white or silvery reflectance of these surfaces does not satisfy the need for color. Here, we present a paintable bilayer coating that simultaneously achieves color and radiative cooling. The bilayer comprises a thin, visible-absorptive layer atop a nonabsorptive, solar-scattering underlayer. The top layer absorbs appropriate visible wavelengths to show specific colors, while the underlayer maximizes the reflection of near-to-short wavelength infrared (NSWIR) light to reduce solar heating. Consequently, the bilayer attains higher NSWIR reflectance (by 0.1 to 0.51) compared with commercial paint monolayers of the same color and stays cooler by as much as 3.0° to 15.6°C under strong sunlight. High NSWIR reflectance of 0.89 is realized in the blue bilayer. The performances show that the bilayer paint design can achieve both color and efficient radiative cooling in a simple, inexpensive, and scalable manner.

Authors

  • Yijun Chen (Columbia University)
  • Jyotirmoy Mandal (Columbia University)
  • Wenxi Li (Columbia University)

Additional Credits

Smith-Washington, Ajani
Tsai, Cheng-Chia
Huang, Wenlong
Shrestha, Sajan
Yu, Nanfang
Han, Ray P. S.
Cao, Anyuan
Yang, Yuan

Publisher

Science Advances

Suggested Citation

Yijun Chen et al. ,Colored and paintable bilayer coatings with high solar-infrared reflectance for efficient cooling.Sci. Adv.6,eaaz5413(2020).DOI:10.1126/sciadv.aaz5413