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3D Printing of Jammed Self-Supporting Microgels With Alternative Mechanism for Shape Fidelity, Crosslinking and Conductivity Publisher



Sheikhi M1 ; Rafiemanzelat F1 ; Ghodsi S2 ; Moroni L3 ; Setayeshmehr M4
Authors
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Authors Affiliations
  1. 1. Polymer Chemistry Research Laboratory, Department of Chemistry, University of Isfahan, Isfahan, 81746-73441, Iran
  2. 2. Department of Plant and Animal Biology, Faculty of Biological Science and Technology, University of Isfahan, Isfahan, 81746-73441, Iran
  3. 3. MERLN Institute for Technology Inspired Regenerative Medicine, Complex Tissue Regeneration Department, Maastricht University, Universiteitssingel 40, Maastricht, 6229ER, Netherlands
  4. 4. Biomaterials and Tissue Engineering Department, School of Advanced Technologies in Medicine, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran

Source: Additive Manufacturing Published:2022


Abstract

Additive manufacturing technology is a growing field, which demands advanced chemistry and fabrication process if smart-materials are desired. Herein, the concept of jammed microgels designed with a new crosslinking method is introduced to be used in 3D-printing applications. Jammed microgels decorated with superficial hydrophobic segments and pure thermo-sensitive gelatin are applied as inks and exhibit shear-induced transition and fast recoverability, which are important for 3D-printing. The interaction of microgels within the as-extruded filaments and with the adjacent deposited layers guarantees shape-fidelity. After printing, a deep eutectic solvent (DES) formed from Arginine and Glycerol ([DES]Arg/Gly) is applied over the construct to trigger a chemical crosslinking reaction between epoxy and amine groups. The introduced [DES]Arg/Gly can play simultaneously two roles: (1) activator of covalent bond formation and (2) conducting agent. Generally, a variety of features including printability, rheological properties and shape-retention are dependent on the fraction of hydrophobic segments and the applied [DES]Arg/Gly concentration. Further, the main network percolation reaction follows a different strategy to achieve a sustainable printable system with biological, mechanical and physiological sustainability of the construct. These results open new possibilities to fabricate a wide range of adaptive platforms of smart materials with ease. © 2022 Elsevier B.V.
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