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High‐Resolution 3D Printing of Mechanically Tough Hydrogels Prepared by Thermo‐Responsive Poloxamer Ink Platform

Kusuma Betha Cahaya Imani, Ara Jo, Gyeong Min Choi, Beogyeong Kim, Jin Woong Chung, Heon Sang Lee, Jinhwan Yoon

2021Macromolecular Rapid Communications21 citationsDOI

Abstract

Abstract High‐resolution 3D‐printable hydrogels with high mechanical strength and biocompatibility are in great demand because of their potential applications in numerous fields. In this study, a material system comprising Pluronic F‐127 dimethacrylate (FDMA) is developed to function as a direct ink writing (DIW) hydrogel for 3D printing. FDMA is a triblock copolymer that transforms into micelles at elevated temperatures. The transformation increases the viscosity of FDMA and preserves its structure during DIW 3D printing, whereupon the printed structure is solidified through photopolymerization. Because of this viscosity shift, various functionalities can be incorporated through the addition of other materials in the solution state. Acrylic acid is incorporated into the pregel solution to enhance the mechanical strength, because the carboxylate group of poly(acrylic acid) ionically crosslinks with Fe 3+ , increasing the toughness of the DIW hydrogel 37 times to 2.46 MJ m −3 . Tough conductive hydrogels are also 3D printed by homogenizing poly(3,4‐ethylenedioxythiophene) polystyrene sulfonate into the pregel solution. Furthermore, the FDMA platform developed herein uses DIW, which facilitates multicartridges 3D printing, and because all the materials included are biocompatible, the platform may be used to fabricate complex structures for biological applications.

Topics & Concepts

Self-healing hydrogelsMaterials sciencePoloxamerBiocompatibilityCopolymerPhotopolymerMicelleAcrylic acidChemical engineeringSulfonate3D printingPolymerViscosityPolymer chemistryNanotechnologyComposite materialChemistryAqueous solutionOrganic chemistryPolymerizationSodiumMetallurgyEngineering3D Printing in Biomedical ResearchAdditive Manufacturing and 3D Printing TechnologiesHydrogels: synthesis, properties, applications
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