High albedo daytime radiative cooling for enhanced bifacial PV performance Article Swipe

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Daytime Albedo (alchemy) Radiative transfer Environmental science Radiative cooling Atmospheric sciences Materials science Meteorology Physics Optics Art Performance art Art history

Hannah Kim , Yiwei Gao , E. Morán , Annyn Howle , Sean McSherry , Spencer G. Cira , Andrej Lenert ·

YOU? · · 2023 · Open Access · · DOI: https://doi.org/10.1515/nanoph-2023-0611 · OA: W4389641591

We present a radiative cooling material capable of enhancing albedo while reducing ground surface temperatures beneath fielded bifacial solar panels. Electrospinning a layer of polyacrylonitrile nanofibers, or nanoPAN, onto a polymer-coated silver mirror yields a total solar reflectance of 99 %, an albedo of 0.96, and a thermal emittance of 0.80. The combination of high albedo and high emittance is enabled by wavelength-selective scattering induced by the hierarchical morphology of nanoPAN, which includes both thin fibers and bead-like structures. During outdoor testing, the material outperforms the radiative cooling power of a state-of-the-art control by ∼20 W/m 2 and boosts the photocurrent produced by a commercial silicon cell by up to 6.4 mA/cm 2 compared to sand. These experiments validate essential characteristics of a high-albedo radiative-cooling reflector with promising potential applications in thermal and light management of fielded bifacial panels.