3D Printing of Multifunctional Conductive Polymer Composite Hydrogels
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Liu, J. and Garcia, J. and Leahy, L.M. and Song, R. and Mullarkey, D. and Fei, B. and Dervan, A. and Shvets, I.V. and Stamenov, P. and Wang, W. and O'Brien, F.J. and Coleman, J.N. and Nicolosi, V., 3D Printing of Multifunctional Conductive Polymer Composite Hydrogels, Advanced Functional Materials, 33, 37, 2023
Abstract
Functional conductive hydrogels are widely used in various application
scenarios, such as artificial skin, cell scaffolds, and implantable bioelectronics.
However, their novel designs and technological innovations are severely
hampered by traditional manufacturing approaches. Direct ink writing (DIW)
is considered a viable industrial-production 3D-printing technology for the
custom production of hydrogels according to the intended applications.
Unfortunately, creating functional conductive hydrogels by DIW has long been
plagued by complicated ink formulation and printing processes. In this study,
a highly 3D printable poly(3,4-ethylenedioxythiophene):polystyrene sulfonate
(PEDOT:PSS)-based ink made from fully commercially accessible raw
materials is demonstrated. It is shown that complex structures can be directly
printed with this ink and then precisely converted into high-performance
hydrogels via a post-printing freeze–thawing treatment. The 3D-printed
hydrogel exhibits high electrical conductivity of ≈2000 S m−1 , outstanding
elasticity, high stability and durability in water, electromagnetic interference
shielding, and sensing capabilities. Moreover, the hydrogel is biocompatible,
showing great potential for implantable and tissue engineering applications.
With significant advantages, the fabrication strategy is expected to open up a
new route to create multifunctional hydrogels with custom features, and can
bring new opportunities to broaden the applications of hydrogel materials.
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Author's Homepage: http://people.tcd.ie/colemaj
Type of material: Journal Article

