期刊
CHEMICAL ENGINEERING JOURNAL
卷 411, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2021.128506
关键词
Ionic conductive hydrogels; Hydrogel-network constrained polymerization; Hydrogen-bonded network; Stretchability; Wearable ionic sensor
资金
- National Natural Science Foundation of China [21875033]
- Fundamental Research Funds for the Central Universities [2232020G-02]
- Shanghai Rising-Star Program [18QA1400200]
- Shanghai Scientific and Technological Innovation Project [18JC1410600]
- Ministry of Education of the People's Republic of China [6141A02033233]
A semi-interpenetrating ionic conductive hydrogel (SICH) with complex deformation tolerance and excellent fatigue resistance was successfully fabricated, showing great potential in applications for ionic sensors.
The construction of ionic conductive hydrogels with complex deformation tolerance and excellent fatigue resistance is highly demanded yet challenging. Herein, a semi-interpenetrating ionic conductive hydrogel (SICH) is fabricated by a hydrogel-network constrained polymerization of 1-butyl-3-vinylimidazole tetrafluoroborate and acrylic acid in polyethylene oxide aqueous solution. Ascribing to the formation of a dense intermolecular hydrogen-bonded network, the SICH is capable of being stretched up to-300%, compressed to-85%, and recovered immediately when the external force is fully released. The SICH can readily work as a high deformation-tolerant ionic conductor for capacitive/resistive bimodal ionic sensors. The ionic sensor not only showed a wide response range to dynamic pressures (0-8 kPa) and excellent cycling stability (500 cycles) in a capacitive mode, but also demonstrated high sensitivity (gauge factor of-1.1), excellent linear response (0-300% strain) and fast response time (80 ms) in a resistive mode. As a demonstration, a wearable bimodal SICH ionic sensor was assembled, showing high sensitivity, linearity, wide response range and great durability in detecting complex human motions including speaking and various joint bending.
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