Facile and environmentally-friendly fabrication of robust composite film with superhydrophobicity and radiative cooling property

Endowing products used outdoors with superhydrophobicity and radiative cooling (RC) properties can decrease pollution caused by dust and heat accumulation resulting from the absorption of solar light, which is significant for prolonging life and maintaining the performance of these products. However, it is still challenging to find a facile and environmentally-friendly method to simultaneously achieve such two properties on the same film. Herein, we developed a composite film consisting of gamma-methacryloxypropyl trimethoxy silane (KH-570), poly-dimethylsiloxane (PDMS), and SiO2 particles by a layered coating method, which exhibits strong sunlight reflectivity (> 85%), high thermal-infrared emissivity (> 0.95) and robust superhydrophobicity (162). The as -obtained film achieves a sub-ambient temperature drop of 15 C under direct sunlight. The preparation of the composite film can avoid using the reagents containing fluorine, which is environmentally friendly. The film can firmly adhere to different substrates such as glass and aluminum, which can widen the application scopes of this film. Furthermore, the composite film exhibits good durability during the wetting, outdoor daytime radiative cooling and mechanical abrasion tests, which is beneficial to the practical outdoor application of this film.

Automated summary

This study successfully developed a composite film with excellent properties using a new coating method, which endows outdoor products with strong reflectivity, high thermal-infrared emissivity, and superhydrophobicity. The film achieves sub-ambient temperature drop and demonstrates environmental friendliness and good durability.