Transparent, self-adhesive, highly environmental stable, and water-resistant ionogel enabled reliable strain/temperature sensors and underwater communicators

[Display omitted] •The ionogel sensor presents high sensitivity to strain and temperature stimuli.•The excellent adhesion ability enables good conformal contact between the gel and human body.•The ionogel sensor exhibits superior underwater sensing performance. Electronic skins have gained considera...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2023-09, Vol.471, p.144674, Article 144674
Main Authors: Wang, Han, Mao, Yanya, Ji, Dan, Wang, Lei, Wang, Lian, Chen, Jianwen, Chang, Xiaohua, Zhu, Yutian
Format: Article
Language:English
Subjects:
Ionogel sensor
Self-adhesiveness
Strain/temperature sensors
Underwater communication
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Summary:[Display omitted] •The ionogel sensor presents high sensitivity to strain and temperature stimuli.•The excellent adhesion ability enables good conformal contact between the gel and human body.•The ionogel sensor exhibits superior underwater sensing performance. Electronic skins have gained considerable attentions for their promising applications in flexible and wearable electronics. Nevertheless, it remains challenging to realize high performance underwater sensing due to the great differences between the aquatic environment and the land environment. Herein, we developed hydrophobic ionogel consisting of hydrophobic polymer network and ionic liquid with high transparency, good stretchability, temperature-dependent ionic conductivity, long-term environmental stability, and excellent adhesion property. These merits enabled the ionogel-based sensor to be employed as strain and temperature sensor, exhibiting excellent sensing performance, such as wide strain range (0.05−250%), rapid response (100 ms), good durability, broad operating temperature window (−60−100 °C), and high-precision thermosensation (0.05 °C). More interestingly, the superior water-resistance ability of the ionogel endowed the ion-conducting gels with tremendous sensing performance in aqueous environment, performing as a wearable sensor for underwater communication and aquatic animals research.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2023.144674