a) Fabrication process of a silk fabric-based respiration sensor. (b)

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.

Wearable respiratory sensors for health monitoring

Photograph of the chip after post-processing with PI2555 and 3.8

Junfeng XIAO, The University of Western Ontario, London

Sensors, Free Full-Text

Sensors, Free Full-Text

Advanced Fiber Materials for Wearable Electronics

Mei Liu's research works Shanghai University, Shanghai (SHU) and

a) Fabrication process of a silk fabric-based respiration sensor. (b)

Fabric-based piezoresistive Ti3AlC2/PEDOT:PSS force sensor for wearable E-textile applications - ScienceDirect

Development of smart wearable sensors for life healthcare - ScienceDirect

Biosensors, Free Full-Text

Polymers, Free Full-Text

Mei Liu's research works Shanghai University, Shanghai (SHU) and