Engineering Conductive Hydrogels with Tissue‐like Properties: A 3D Bioprinting and Enzymatic Polymerization Approach

Engineering Conductive Hydrogels with Tissue‐like Properties: A 3D Bioprinting and Enzymatic Polymerization Approach

Hydrogels are promising materials for medical devices interfacing with neural tissues due to their similar mechanical properties. Traditional hydrogel‐based bio‐interfaces lack sufficient electrical conductivity, relying on low ionic conductivity, which limits signal transduction distance. Conductin...

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Bibliographic Details
Main Authors:	Changbai Li, Sajjad Naeimipour, Fatemeh Rasti Boroojeni, Tobias Abrahamsson, Xenofon Strakosas, Yangpeiqi Yi, Rebecka Rilemark, Caroline Lindholm, Venkata K. Perla, Chiara Musumeci, Yuyang Li, Hanne Biesmans, Marios Savvakis, Eva Olsson, Klas Tybrandt, Mary J. Donahue, Jennifer Y. Gerasimov, Robert Selegård, Magnus Berggren, Daniel Aili, Daniel T. Simon
Format:	Article
Language:	English
Published:	Wiley-VCH 2024-11-01
Series:	Small Science
Subjects:	3D printing cell scaffold conducting polymer in vitro polymerization
Online Access:	https://doi.org/10.1002/smsc.202400290
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