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Superhydrophobic, Highly Conductive, and Trilayered Fabric with Connected Carbon Nanotubes for Energy-Efficient Electrical Heating

Xi Yu, Jinlin Ye, C. N. Li, Yue Yu, Huiting Yang, Lingrui Wen, Jinfu Huang, Wanhao Xu, Yeer Wu, Qiang Zhou, Zijin Liu, Bingyan Li, Lihuan Wang, Hui Yu, Jianhua Yan, Xianfeng Wang

2024ACS Applied Materials & Interfaces17 citationsDOI

Abstract

Current electrically heated fabrics provide heat in cold climates, suffer from abundant wasted radiant heat energy to the external environment, and are prone to damage by water. Thus, constructing energy-efficient and superhydrophobic conductive fabrics is in high demand. Therefore, we propose an effective and facile methodology to prepare a superhydrophobic, highly conductive, and trilayered fabric with a connected carbon nanotube (CNT) layer and a titanium dioxide (TiO 2 ) nanoparticle heat-reflecting layer. We construct polyamide/fluorinated polyurethane (PA/FPU) nanofibrous membranes via first electrospinning, then performing blade-coating with the polyurethane (PU) solution with CNTs, and finally fabricating FPU/TiO 2 nanoparticles via electrospraying. This strategy causes CNTs to be connected to form a conductive layer and enables TiO 2 nanoparticles to be bound together to form a porous, heat-reflecting layer. As a consequence, the as-prepared membranes demonstrate high conductivity with an electrical conductivity of 63 S/m, exhibit rapid electric-heating capacity, and exhibit energy-efficient asymmetrical heating behavior, i.e., the heating temperature of the PA/FPU nanofibrous layer reaches more than 83 °C within 90 s at 24 V, while the heating temperature of the FPU/TiO 2 layer only reaches 53 °C, as well as prominent superhydrophobicity with a water contact angle of 156°, indicating promising utility for the next generation of electrical heating textiles.

Topics & Concepts

Materials scienceElectrical conductorCarbon nanotubeComposite materialLayer (electronics)Electrically conductiveCarbon fibersNanotechnologyComposite numberAdvanced Sensor and Energy Harvesting MaterialsSurface Modification and SuperhydrophobicityThermal Radiation and Cooling Technologies