4D‐Printed Soft and Stretchable Self‐Folding Cuff Electrodes for Small‐Nerve Interfacing (Adv. Mater. 12/2023)

Self‐Folding Electrodes In article number 2210206, Lukas Hiendlmeier, Francisco Zurita, Bernhard Wolfrum, and co‐workers present a new method for fabricating small, soft, and stretchable cuff electrodes that fold and change shape when submerged in an aqueous environment. Just like a hand closes its...

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Bibliographic Details
Published inAdvanced materials (Weinheim) Vol. 35; no. 12
Main Authors Hiendlmeier, Lukas, Zurita, Francisco, Vogel, Jonas, Del Duca, Fulvia, Al Boustani, George, Peng, Hu, Kopic, Inola, Nikić, Marta, F. Teshima, Tetsuhiko, Wolfrum, Bernhard
Format Journal Article
LanguageEnglish
Published 23.03.2023
Subjects
4D printing
cuff electrodes
hydrogels
nerve interfaces
self‐folding
small nerves
stretchable materials
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Summary:Self‐Folding Electrodes In article number 2210206, Lukas Hiendlmeier, Francisco Zurita, Bernhard Wolfrum, and co‐workers present a new method for fabricating small, soft, and stretchable cuff electrodes that fold and change shape when submerged in an aqueous environment. Just like a hand closes its fingers when grasping, these structures fold and wrap around peripheral nerves, greatly simplifying the process of nerve interfacing at a small scale.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.202370088