Elastic–Electric Coefficient-Sensitive Hydrogel Sensors toward Sweat Detection
Bin Shen, Wenjing Peng, Bingtian Su, Lizhen Wu, Zhihao Liu, Huihua Xu, Jiexiu Zhao, Pengju Feng, Fengyu Li
Abstract
The complex and multivariate biological systems and environment are challenging the development of related detection and analysis. It calls for the multiresponsive and facile sensing material and method for multi-analyte identification. In this work, we proposed an elastic–electric coefficient sensitivity strategy with hydrogel [amino trimethylene phosphonic acid-assisted poly(vinyl alcohol)] to achieve discriminative analysis of various chemicals. Elastic sensitivity based on the Hofmeister effect and electric sensitivity based on hydrated ion migration are explored in detail. With a rational design, the elastic–electric coefficient-sensitive hydrogel can qualify and quantify various kinds of chemicals (cations, anions, amino acids, saccharides, and lactate). The facile hydrogel sensor realized complicated sweat recognition and can be used in various applications such as environment monitoring, disease diagnosis, and athletic training optimization.