Thin layer lightweight and ultrawhite hexagonal boron nitride nanoporous paints for daytime radiative cooling
Andrea Felicelli, Ioanna Katsamba, Fernando A. Barrios, Yun Zhang, Ziqi Guo, Joseph Peoples, George T.‐C. Chiu, Xiulin Ruan
Abstract
Thin and lightweight radiative cooling paints are needed for many weight-sensitive applications. However, it is difficult to achieve high solar reflectance with thin layers. This work develops ultrawhite hBN-acrylic paints that achieve solar reflectance of 97.9% and sky window emissivity of 0.83 with only 150 μm thickness and 0.029 g/cm2 weight, representing significant reductions from previous radiative cooling paints. The high refractive index and nanoplatelet morphology of hBN enable a unique combination of Mie scattering-like high scattering coefficient and Rayleigh scattering-like strong backscattering, and a porosity of 44.3% offers high refractive index contrast between hBN and air; all contribute to achieve high solar reflectance with a thin coating. Field tests show full daytime cooling under direct sunlight, reaching 5–6°C below ambient temperature on average during daylight hours. Our hBN-acrylic paint demonstrates comparable cooling performance with recent best technologies, and the thinness and light weight reduce barriers toward many practical applications.