Toward the goal of smart sensor systems for wearable electronics, polymer microfiber-based free-standing sensors benefit from excellent flexibility, decent ductility, and easy wearability in comparison with thin-film-based sensing devices. Herein, we report a hydrophobic and conducting single-strand microfiber-based liquid-phase chemical sensor consisting of polyurethane (PU), tin oxide (SnO 2 ), and carbon nanotube (CNT) composites with applying a (1H,1H,2H,2H-heptadecafluorodec-1-yl) phosphonic acid (HDF-PA)-based self-assembled monolayer. The free-standing HDF-PA-treated PU-SnO 2 -CNT composite microfiber showing selective filtering properties with the repellency of water and the penetration of an organic solvent is electrically and mechanically characterized. Finally, the singlestrand HDF-PA-treated PU-SnO 2 -CNT composite microfiberbased chemical sensor, which shows excellent mechanical properties and aqueous stability, is demonstrated to detect the presence of a chemical in pure water or counterfeit gasoline in pure gasoline by observing mechanical changes, especially variations in the length and diameter of the fiber, and monitoring the electrical resistance change.In recent years, various chemical sensors using a CNT-polymer composite microfiber have been under study. A gas-phase chemical sensor detects electrical sensing characteristics, Additional supporting information may be found in the online version of this article.
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