Flexible and Highly Sensitive Strain Sensors Fabricated by Pencil Drawn for Wearable Monitor |
| |
| Authors: | Xinqin Liao Qingliang Liao Xiaoqin Yan Qijie Liang Haonan Si Minghua Li Hualin Wu Shiyao Cao Yue Zhang |
| |
| Affiliation: | 1. State Key Laboratory for Advanced Metals and Materials, School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing, P.R. China;2. Key Laboratory of New Energy Materials and Technologies, University of Science and Technology Beijing, Beijing, P.R. China |
| |
| Abstract: | Functional electrical devices have promising potentials in structural health monitoring system, human‐friendly wearable interactive system, smart robotics, and even future multifunctional intelligent room. Here, a low‐cost fabrication strategy to efficiently construct highly sensitive graphite‐based strain sensors by pencil‐trace drawn on flexible printing papers is reported. The strain sensors can be operated at only two batteries voltage of 3 V, and can be applied to variously monitoring microstructural changes and human motions with fast response/relaxation times of 110 ms, a high gauge factor (GF) of 536.6, and high stability >10 000 bending–unbending cycles. Through investigation of service behaviors of the sensors, it is found that the microcracks occur on the surface of the pencil‐trace and have a major influence on the functions of the strain sensors. These performances of the strain sensor attain and even surpass the properties of recent strain sensing devices with subtle design of materials and device architectures. The pen‐on‐paper (PoP) approach may further develop portable, environmentally friendly, and economical lab‐on‐paper applications and offer a valuable method to fabricate other multifunctional devices. |
| |
| Keywords: | flexible electronics microcontact sensing printing technique strain sensors wearable monitor |
|
|
