Litcius/Paper detail

Flexible Wearable Capacitive Sensors Based on Ionic Gel with Full-Pressure Ranges

Mengqin Zhang, Mingxin Gu, Li‐Dong Shao, Guanyin Cheng, Hailin Gao, Bihao Sun, Sen Li, Tian Tang, Nan Li, Yuanbang Yi, Dacheng Wei, Dacheng Wei, Ce Yang, Dapeng Wei, Dapeng Wei

2023ACS Applied Materials & Interfaces79 citationsDOI

Abstract

Flexible positive pressure sensors have been studied extensively and have been used in a lot of scenarios. However, negative pressure detection is also in demand in some scenarios, such as fluid mechanics analysis, air pressure sensing, and so on. Flexible wearable sensors that can detect both positive and negative pressures will greatly broaden the application field. In this paper, we report a flexible highly sensitive ionic gel (IG) pressure sensor, which is simple and of low cost to prepare and can reliably detect a large pressure range from −98 to 100 kPa under an atmospheric pressure of about 982 hPa. The IG dielectric layer is composed of polyvinyl alcohol and phosphoric acid with a random microstructure of sandpaper inversion. The sensor exhibits flexibility, cycling stability, and high sensitivity under both negative and positive pressures ( S = 84.45 nF/kPa for the negative pressure section, S = 25.61 nF/kPa for the positive pressure section). These sensors could be worn on the body not only to test breathing and pulse but also to measure air pressure for estimating the altitude, showing that the flexible full-pressure sensors have a wider application range in wearable electronics.

Topics & Concepts

Materials sciencePressure sensorCapacitive sensingWearable computerPressure measurementAcousticsOptoelectronicsComputer scienceMechanical engineeringEmbedded systemPhysicsOperating systemEngineeringAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsCardiovascular and Diving-Related Complications
Flexible Wearable Capacitive Sensors Based on Ionic Gel with Full-Pressure Ranges | Litcius