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2022 | OriginalPaper | Chapter

3D Printing of PEDOT:PSS-PU-PAA Hydrogels with Excellent Mechanical and Electrical Performance for EMG Electrodes

Authors : Hude Ma, Jingdan Hou, Wenhui Xiong, Zhilin Zhang, Fucheng Wang, Jie Cao, Peng Jiang, Hanjun Yang, Ximei Liu, Jingkun Xu

Published in: Intelligent Robotics and Applications

Publisher: Springer International Publishing

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Abstract

Bioelectronics has been developed for recording the electrophysiological activity of diagnostic and therapeutic devices. However, current bioelectrodes still imperfectly comply with tissues, which results in high interfacial impedance and even mechanical detachment. Herein, we report a simple yet effective approach to overcome such hurdles by designing a highly conductive, adhesive hydrogel composite based on freeze-dried poly(3,4-ethylenedioxythiophene):poly (styrene sulfonate) (PEDOT:PSS), polyurethane (PU), and poly(acrylic acid) (PAA). With the continuous phase-separation of PEDOT:PSS, PU, and PAA, the resultant composite hydrogels can simultaneously achieve high adhesion (lap-shear strength > 8 kPa), stretchability (fracture strain > 1100%), and electrical conductivity (conductivity > 2 S/m) by overcoming the traditional trade-off between mechanical and electrical properties in conducting polymer hydrogels. Moreover, such hydrogels are readily applicable to advanced manufacturing techniques such as 3D printing. We further fabricated skin electrodes and achieved high quality and high signal-to-noise ratio EMG signal recording of the forearm.

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previous chapter FES-Based Hand Movement Control via Iterative Learning Control with Forgetting Factor

next chapter Stretchable, Conducting and Large-Range Monitoring PEDOT: PSS-PVA Hydrogel Strain Sensor

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Title: 3D Printing of PEDOT:PSS-PU-PAA Hydrogels with Excellent Mechanical and Electrical Performance for EMG Electrodes
Authors: Hude Ma
Jingdan Hou
Wenhui Xiong
Zhilin Zhang
Fucheng Wang
Jie Cao
Peng Jiang
Hanjun Yang
Ximei Liu
Jingkun Xu
Publisher: Springer International Publishing
Book: Intelligent Robotics and Applications
Print ISBN: 978-3-031-13821-8

Electronic ISBN: 978-3-031-13822-5

Copyright Year: 2022
DOI: https://doi.org/10.1007/978-3-031-13822-5_26

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