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Fluorine-containing polyimide nanofiber membranes for durable and anti-aging daytime radiative cooling.

Authors :
Zhang, Qiaoran
Xue, Tiantian
Lu, Yang
Ma, Lei
Yu, Dingyi
Liu, Tianxi
Fan, Wei
Source :
Journal of Materials Science & Technology; Apr2024, Vol. 179, p166-173, 8p
Publication Year :
2024

Abstract

• A novel fluorine-containing PINF membrane with high whiteness has been prepared from 6FDA and TFMB via electrospinning technology. • The as-obtained PINF membranes have a high solar reflection of 95.5% (0.4–0.8 µm) and infrared emissivity of 88.0% (8–13 µm). • The PINF membranes display strong UV shielding properties and excellent thermal stability with no obvious weight loss before 500 ℃. • The daytime radiative cooling effect of PINF membranes maintains constant in the aging test for continuous 720 h. Personal daytime radiative cooling (PDRC) materials have high sunlight reflection and high selective emissivity to outer space in the main atmospheric window, demonstrating huge potential in energy-saving for sustainable development. Recently, polymer-based membranes for radiative cooling have been widely reported, due to their easy processing, low cost, and unique optical performance. However, the desired high sunlight reflectance of PDRC materials is easily dampened by environmental aging, high temperature, and ultraviolet (UV) irradiation, resulting in reduced cooling performance for most polymers, adverse to large-scale practical applications. In this work, we demonstrate a novel polyimide nanofiber (PINF) membrane with a fluorine-containing structure via typical electrospinning technology. The resultant PINF membrane exhibits high sunlight reflectance, UV resistance, and excellent thermal stability, rendering anti-aging daytime radiative cooling. The sunlight reflectance of PINF membranes could maintain constant in the aging test for continuous 720 h under outdoor solar irradiation, exhibiting durable and long-term personal daytime radiative cooling performance. [Display omitted] [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10050302
Volume :
179
Database :
Supplemental Index
Journal :
Journal of Materials Science & Technology
Publication Type :
Periodical
Accession number :
175026079
Full Text :
https://doi.org/10.1016/j.jmst.2023.07.011