Litcius/Paper detail

Gas‐Blows‐Liquid Spinning Strategy Toward Mechanically Strong, Thermally Protective, Efficiently Hemostatic Aerogel Fibers/Fabrics

Jing Lyu, Zengwei Liu, Xuetong Zhang

2024Small Methods12 citationsDOIOpen Access PDF

Abstract

Abstract Nanoporous aerogel fibers enjoy the luxury of being one of the most attractive nanomaterials. However, the representative fabrication pathways have faced up with low production rates due to significant speed mismatch between slow sol–gel transition and as fast as possible spinning in the same period. Herein, a novel gas‐blows‐liquid spinning (GS) strategy with a spinning speed of 300–700 m s −1 is developed to get the high‐speed and high‐efficiency production of aerogel fibers/fabrics. The spinning speed of the GS strategy is 900 times higher than various techniques reported for aerogel fibers. The resulting aerogel fibers exhibit a high specific surface area (180 m 2 g −1 ). In comparison, the aerogel fiber possesses the highest tensile strength (58.7±3.9 MPa) among its counterparts and aerogel fabric with surprising water‐absorption and microparticle‐blocking performances exhibits the application prospect for better hemostasis than that of commercial gauze and cotton ball. Besides, the GS aerogel fabrics with hierarchical aligned structures show better thermal insulation (≈0.035 Wm −1 K −1 ) than wet spinning aerogel fabric and commercial insulation felts. This work has provided inspiration for fast fabricating more aerogel fibers/fabrics with this GS strategy, and the resulting aerogel fibers/fabrics may find significant application in the fields of 5G smart phones, wound hemostasis, etc.

Topics & Concepts

AerogelNanoporousSpinningMaterials scienceComposite materialThermal insulationFiberNanotechnologyLayer (electronics)Aerogels and thermal insulationAdvanced Sensor and Energy Harvesting MaterialsElectrospun Nanofibers in Biomedical Applications
Gas‐Blows‐Liquid Spinning Strategy Toward Mechanically Strong, Thermally Protective, Efficiently Hemostatic Aerogel Fibers/Fabrics | Litcius