Affiliation:
1. School of Information Science and Engineering Yanshan University 438 West Hebei Street Qinhuangdao 066004 China
2. School of Energy and Power Engineering Shandong University 17923 Jingshi Road Jinan 250016 China
3. School of Science Yanshan University 438 West Hebei Street Qinhuangdao 066004 China
4. School of Intelligence Science and Technology University of Science and Technology Beijing 30 Xueyuan Road Beijing 100083 China
Abstract
AbstractWearable health monitoring sensors, when employed to monitor pulse and sweat volume in real‐time during human physical activity, serve as an effective preventative measure against abnormal health conditions, such as elevated heart rate or excessive dehydration. Herein, a dual‐functional sensor based on a sandwich structure composed of polyvinylidene fluoride hexafluoropropylene / conductive carbon black perforated film (named PCp film) and corncob sponge is designed to monitor pulse and sweat volume. The PCp film prepared by the breath figure method serves as a piezoresistive sensor with high sensitivity (0.06 kPa−1), a fast response time (0.9 ms), and high reusability for pulse monitoring. Furthermore, the PCp film has excellent water permeability (27.3 L m−2 h−1); thus, the sweat permeating through the PCp film can be absorbed by the corncob sponge. The sandwich‐structured capacitive sensor is also highly sensitive (6.021 pF nL−1) to the absorbed sweat and is highly reusable. In addition, the dual‐functional sensor is successfully integrated into a sports bracelet system to display real‐time pulse and sweat‐volume data of the wearer. This approach provides a dependable foundation for the advancement of multifunctional sensors in the field of sports monitoring.
Funder
Natural Science Foundation of Hebei Province