Superhydrophobic polyvinylidene fluoride/polyimide nanofiber composite aerogels for thermal insulation under extremely humid and hot environment

Excellent thermal insulating materials are highly demanded in various applications including buildings, aerospace and sport equipment. However, in practical applications, the performance of thermal insulating materials usually deteriorates under diverse temperature and humidity conditions. Therefore, it is highly essential to construct a bulk material that exhibits outstanding thermal insulation performance under extremely humid and hot environment. In this work, we have conceived a green and effective strategy to fabricate a superhydrophobic and compressible polyvinylidene fluoride/polyimide (PVDF/PI) nanofiber composite aerogel via electrospinning and freeze-drying technique. Interestingly, the PVDF nanofibers and PI nanofibers function as the hydrophobic fibrous framework and mechanical support skeleton, respectively, forming a robust three-dimensional framework with good mechanical flexibility. The PVDF/PI aerogel possesses outstanding superhydrophobic feature (water contact angle of 152 degrees) and low thermal conductivity (31.0 mW m(-1) K-1) at room temperature. Significantly, even at 100% relative humidity (80 degrees C), the PVDF/PI aerogel still exhibits a low thermal conductivity of only 48.6 mW m(-1) K-1, which outperforms the majority of commercial thermal insulating materials. Therefore, the novel PVDF/PI aerogel is promising as an excellent thermal insulating material for the applications in high temperature and humid environment.

Automated summary

In this study, a superhydrophobic and compressible PVDF/PI nanofiber composite aerogel with excellent thermal insulation performance was successfully fabricated, demonstrating low thermal conductivity even in high humidity and high temperature conditions.