Engineering microcracks in MWCNT/elastomer bilayers for high-performance stretchable sensor development

Stretchable strain sensors in motion detection, health monitoring, and human-machine interfaces are limited by device sensitivity, linearity, hysteresis, stability, and reproducibility in addition to stretchability. Engineering defect structures in sensing material is an effective approach in modula...

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Bibliographic Details
Published in:Nanotechnology 2024-01, Vol.35 (3), p.35502
Main Authors: Wang, Fei, Zhou, Boran, Wang, Rui, Jenkinson, Jim, Zhu, Weihang, Zhong, Jing, Fan, Zheng, Sun, Li
Format: Article
Language:English
Subjects:
bilayer
cracked network film
piezoresistivity modeling
stretchable sensor
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Summary:Stretchable strain sensors in motion detection, health monitoring, and human-machine interfaces are limited by device sensitivity, linearity, hysteresis, stability, and reproducibility in addition to stretchability. Engineering defect structures in sensing material is an effective approach in modulating the material's physical properties, particularly those associated with mechanical responses. Here, we demonstrate that bilayers of carbon nanotubes deposited on an elastomer substrate are mechanically coupled. The microcrack size, density, and distribution in the nanotube thin film can be engineered through uniaxial tensile training to exhibit highly tunable and stable piezoresistive responses with sensitivity, linearity, range, and reproducibility. These responses far exceeding those in uniform metallic films, patterned structures, and composites. In addition, numerical analyses performed on a two-dimensional network model of the cracked nanotube film provide quantitative explanations of how crack configuration, and evolvement under strain, lead to the significant enhancements in stretchable sensor performance using current bilayer structures.
ISSN:0957-4484
1361-6528
DOI:10.1088/1361-6528/ad0249