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Download scientific diagram | (a) Fabrication process of a silk fabric-based respiration sensor. (b) Real-time monitoring of shallow breathing (black), normal breathing (blue), and fast breathing (red) with a humidity-sensitive textile-based device. Inset Fig. 4b is the optical photo of the EL device at different breathing states. (c) are the enlarged response curves corresponding to shallow breathing, normal breathing, and fast breathing, respectively. from publication: Textile-Based Humidity-Driven Wearable Electroluminescent for Visual Sensing | Miniaturization and integration have become a trend of modern wearable intelligent electronics. But how to visualize sensing information in a single-level device remains a challenge. Here, we present a humidity-driven textile-based electroluminescent (EL) interactive display | Electroluminescence, Sensing and Devices | ResearchGate, the professional network for scientists.
a) Fabrication process of a silk fabric-based respiration sensor. (b)
Development of smart wearable sensors for life healthcare - ScienceDirect
Fabrication process of a silk fabric-based respiration sensor.
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a–c) Diagrammatic sketch of the crack and elastic effects in the
a) Fabrication process of a silk fabric-based respiration sensor. (b)
Bode diagrams of the PPy/GO sensor toward a low (23% RH), b medium
Oscillograms at humidity sensor's output at 55 % RH.
The technology of wearable flexible textile-based strain sensors for monitoring multiple human motions: construction, patterning and performance - Sensors & Diagnostics (RSC Publishing) DOI:10.1039/D3SD00194F
PEDOT:PSS-modified cotton conductive thread for mass manufacturing of textile-based electrical wearable sensors by computerized embroidery - ScienceDirect
Stretchable and Washable Strain Sensor Based on Cracking Structure for Human Motion Monitoring
Sensors, Free Full-Text
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Fabric-based piezoresistive Ti3AlC2/PEDOT:PSS force sensor for wearable E-textile applications - ScienceDirect