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A Scalable Microstructure Photonic Coating Fabricated by Roll-to-Roll “Defects” for Daytime Subambient Passive Radiative Cooling

Sipan Liu, Chenxi Sui, Myers Harbinson, Michael Pudlo, Himendra Perera, Zhenzhen Zhang, Ruguan Liu, Zahyun Ku, Md. Islam, Yuxuan Liu, Ronghui Wu, Yong Zhu, Jan Genzer, Saad A. Khan, Po‐Chun Hsu, Jong Eun Ryu

2023Nano Letters76 citationsDOI

Abstract

The deep space’s coldness (∼4 K) provides a ubiquitous and inexhaustible thermodynamic resource to suppress the cooling energy consumption. However, it is nontrivial to achieve subambient radiative cooling during daytime under strong direct sunlight, which requires rational and delicate photonic design for simultaneous high solar reflectivity (>94%) and thermal emissivity. A great challenge arises when trying to meet such strict photonic microstructure requirements while maintaining manufacturing scalability. Herein, we demonstrate a rapid, low-cost, template-free roll-to-roll method to fabricate spike microstructured photonic nanocomposite coatings with Al 2 O 3 and TiO 2 nanoparticles embedded that possess 96.0% of solar reflectivity and 97.0% of thermal emissivity. When facing direct sunlight in the spring of Chicago (average 699 W/m 2 solar intensity), the coatings show a radiative cooling power of 39.1 W/m 2 . Combined with the coatings’ superhydrophobic and contamination resistance merits, the potential 14.4% cooling energy-saving capability is numerically demonstrated across the United States.

Topics & Concepts

Radiative coolingEmissivityMaterials sciencePhotonicsOptoelectronicsMicrostructureLow emissivityCoatingRadiative transferNanocompositePassive coolingOpticsThermalNanotechnologyComposite materialPhysicsMeteorologyThermodynamicsThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationSolar Thermal and Photovoltaic Systems
A Scalable Microstructure Photonic Coating Fabricated by Roll-to-Roll “Defects” for Daytime Subambient Passive Radiative Cooling | Litcius