1. Highly Sensitive Wearable Textile-Based Humidity Sensor Made of High-Strength, Single-Walled Carbon Nanotube/Poly(vinyl alcohol) Filaments
- Author
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Moon-Kwang Um, Gengheng Zhou, Youngseok Oh, Joon-Hyung Byun, Dong Gi Seong, Sangil Hyun, Byung-Mun Jung, Tsu-Wei Chou, and Hwa-Jin Cha
- Subjects
Vinyl alcohol ,Absorption of water ,Materials science ,Humidity ,02 engineering and technology ,Carbon nanotube ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,0104 chemical sciences ,law.invention ,chemistry.chemical_compound ,chemistry ,Electrical resistance and conductance ,law ,medicine ,General Materials Science ,Relative humidity ,Swelling ,medicine.symptom ,Composite material ,0210 nano-technology ,Electrical conductor - Abstract
Textile-based humidity sensors can be an important component of smart wearable electronic-textiles and have potential applications in the management of wounds, bed-wetting, and skin pathologies or for microclimate control in clothing. Here, we report a wearable textile-based humidity sensor for the first time using high strength (ā¼750 MPa) and ultratough (energy-to-break, 4300 J gā1) SWCNT/PVA filaments via a wet-spinning process. The conductive SWCNT networks in the filaments can be modulated by adjusting the intertube distance by swelling the PVA molecular chains via the absorption of water molecules. The diameter of a SWCNT/PVA filament under wet conditions can be as much as 2 times that under dry conditions. The electrical resistance of a fiber sensor stitched onto a hydrophobic textile increases significantly (by more than 220 times) after water sprayed. Textile-based humidity sensors using a 1:5 weight ratio of SWCNT/PVA filaments showed high sensitivity in high relative humidity. The electrical res...
- Published
- 2017
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