期刊
ACS APPLIED MATERIALS & INTERFACES
卷 11, 期 3, 页码 3428-3437出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.8b17440
关键词
organohydrogel; conductivity; antifreezing; self-adhesive; flexible devices
资金
- National Natural Science Foundation of China [51703012, 51873024]
- Science and Technology Department of Jilin Province [20180101207JC]
- Education Department of Jilin Province [JJKH20191296KJ, JJKH20191306KJ]
Conductive hydrogels had demonstrated significant prospect in the field of wearable devices. However, hydrogels suffer from a huge limitation of freezing when the temperature falls below zero. Here, a novel conductive organohydrogel was developed by introducing polyelectrolytes and glycerol into hydrogels. The gel exhibited excellent elongation, self-healing, and self-adhesive performance for various materials. Moreover, the gel could withstand a low temperature of -20 degrees C for 24 h without freezing and still maintain good conductivity and self-healing properties. As a result, the sample could be applied for motion detection and signal transmission. For example, it can respond to finger movements and transmit network signals like network cables. Therefore, it was envisioned that the effective design strategy for conductive organohydrogels with antifreezing, toughness, self-healing, and self-adhesive properties would provide wide applications of flexible wearable devices.
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