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Coral-Inspired Asymmetrically Porous Radiative Cooling Biofilm with Thermoplastic Polyurethane-Enhanced Mechanical Tolerance as Building Energy-Saving Envelope

Haoran Cai, Shuangjiang Feng, Mingxin Feng, Xu He, Chenghuan Liu, Man He, Xiaohai Bu, Jun Huang, Yuming Zhou

2023ACS Applied Polymer Materials11 citationsDOI

Abstract

Passive radiative cooling (PRC) is an emerging energy-free cooling strategy that reflects solar radiation and emits heat into outer space to achieve a cooling temperature below ambient. Despite notable progress, large-scale commercialization of PRC films for practical applications still remains a challenge, specifically in terms of their ability to envelope complex surfaces and the mechanical tolerance for prolonged utilization. Herein, we fabricated an asymmetrically coral-like porous cellulose acetate/thermoplastic polyurethane (CA/TPU) film with controllable size and thickness inspired by natural coral. The asymmetrical structure with coral-shaped pores enhances the scattering of sunlight across the apertures, and the introduction of hydroxyapatite nanorods (HAP NRs) strengthens the infrared emission. Additionally, the cross-linking between the polymer molecular chains of CA and elastomer TPU enables the PRC biofilm outstanding mechanical tolerance and flexibility which can be stretched to 236.2%. As a result, the PRC biofilm exhibits high solar reflectivity of 97.26% and infrared emissivity of 97.22%, contributing to a subambient temperature drop of 9.2 °C under solar radiation of 1550 W/m 2 . The PRC biofilm is expected to be utilized as an energy-saving envelope structure for buildings, vehicles, and textiles in practical applications.

Topics & Concepts

Materials scienceRadiative coolingComposite materialBuilding envelopeThermoplastic polyurethaneNanotechnologyElastomerThermalThermodynamicsMeteorologyPhysicsThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationBuilding Energy and Comfort Optimization