Transparent multifunctional cellulose-based conductive hydrogel for wearable strain sensors and arrays
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Abstract
Conductive hydrogels as promising candidate materials for flexible strain sensors have gained considerable attentions. However, it is still a great challenge to construct hydrogel with multifunctional performance via natural polymer . Herein, a novel multifunctional conductive hydrogel based on methylcellulose and cellulose nanocrystal was prepared via a facile and low-cost strategy. Methylcellulose (MC) was introduced to not only guarantee the stability of tannic acid coated cellulose nanocrystal (TA@CNCs) in LiCl solution, but also improve anti-freezing ability. The obtained hydrogel exhibited high transparency (98 % at 800 nm), good stretchability (663.1 %), low temperature tolerance (−23.9 °C), superior…
Citation impact
109
total citations
- FWCI
- 18.24
- Percentile
- 100%
- References
- 58
Citations per year
Authors
6Topics & keywords
Topics
Keywords
- Self-healing hydrogels
- Materials science
- Polymer
- Cellulose
- Nanotechnology
- Electrical conductor
- Bacterial cellulose
- Chemical engineering
UN Sustainable Development Goals
- Affordable and clean energy
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