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3D Printing Method for Tough Multifunctional Particle-Based Double-Network Hydrogels

Donghao Zhao, Yide Liu, Binhong Liu, Zhe Chen, Guodong Nian, Shaoxing Qu, Wei Yang

2021ACS Applied Materials & Interfaces72 citationsDOI

Abstract

3D printing of hydrogels finds widespread applications in biomedicine and engineering. Artificial cartilages and heart valves, tissue regeneration and soft robots, require high mechanical performance of complex structures. Although many tough hydrogels have been developed, complicated synthesis processes hinder their fabrication in 3D printing. Here, a strategy is proposed to formulate hydrogel inks, which can be printed into various strong and tough particle-based double-network (P-DN) hydrogels of arbitrary shapes without any rheological modifiers. These hydrogel inks consist of microgels and a hydrogel precursor. The microgels are individual highly cross-linked networks. They are prepared by swelling dried microparticles in the hydrogel precursor that consists of monomers, initiators, and cross-linkers. Microgels regulate the rheological properties of the hydrogel ink and enable the direct printing. After printing and curing, the precursor forms a sparsely cross-linked network that integrates the microgels, leading to a P-DN hydrogel. The proposed hydrogel inks allow 3D printing of multifunctional hydrogel structures with high mechanical performance and strong adhesion to diverse materials. This strategy will open new avenues to fabricate multifunctional devices in tissue engineering and soft robotics.

Topics & Concepts

Self-healing hydrogelsMaterials scienceNanotechnology3D printingSoft roboticsTissue engineeringRheologyFabricationSoft materialsBiofabricationComposite materialComputer scienceRobotBiomedical engineeringPolymer chemistryArtificial intelligenceAlternative medicinePathologyMedicine3D Printing in Biomedical ResearchHydrogels: synthesis, properties, applicationsAdvanced Sensor and Energy Harvesting Materials
3D Printing Method for Tough Multifunctional Particle-Based Double-Network Hydrogels | Litcius