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March 3, 2026
Superelastic and highly sensitive conductive hydrogel sensor enabled by spatially confined assembly of MXene within bacterial cellulose network
XW
Xinhui Wang
Northeast Forestry University
CJ
Cheng Jing
Jiangsu University
ZH
Zhe Han
Hebei Medical University
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Key Points
The sensor shows high sensitivity when detecting stimuli, leveraging the unique properties of mxene.
A notable enhancement in superelasticity was recorded, improving the hydrogel performance substantially.
This study employs a spatial assembly technique that integrates mxene into the bacterial cellulose network effectively.
The findings highlight potential applications in smart devices and healthcare, suggesting further exploration in real-world scenarios.
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Wang et al. (Thu,) studied this question.
synapsesocial.com/papers/69a7676cbadf0bb9e87e0da1
https://doi.org/https://doi.org/10.1016/j.ijbiomac.2026.150732
Superelastic and highly sensitive conductive hydrogel sensor enabled by spatially confined assembly of MXene within bacterial cellulose network | Synapse