Mengfei Yu scite author profile

Three-dimensional (3D) hydrogel printing enables production of volumetric architectures containing desired structures using programmed automation processes. Our study reports a unique method of resolution enhancement purely relying on post-printing treatment of hydrogel constructs. By immersing a 3D-printed patterned hydrogel consisting of a hydrophilic polyionic polymer network in a solution of polyions of the opposite net charge, shrinking can rapidly occur resulting in various degrees of reduced dimensions comparing to the original pattern. This phenomenon, caused by complex coacervation and water expulsion, enables us to reduce linear dimensions of printed constructs while maintaining cytocompatible conditions in a cell type-dependent manner. We anticipate our shrinking printing technology to find widespread applications in promoting the current 3D printing capacities for generating higher-resolution hydrogel-based structures without necessarily having to involve complex hardware upgrades or other printing parameter alterations.

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Analysis of Facial Bone Wall Dimensions and Sagittal Root Position in the Maxillary Esthetic Zone: A Retrospective Study Using Cone Beam Computed Tomography

Wang¹,

Shen²,

Yu³

et al. 2014

Int J Oral Maxillofac Implants

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Cranial Suture Regeneration Mitigates Skull and Neurocognitive Defects in Craniosynostosis

Yuan

et al. 2021

Cell

105

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Mengfei Yu

Complexation-induced resolution enhancement of 3D-printed hydrogel constructs

Analysis of Facial Bone Wall Dimensions and Sagittal Root Position in the Maxillary Esthetic Zone: A Retrospective Study Using Cone Beam Computed Tomography

Cranial Suture Regeneration Mitigates Skull and Neurocognitive Defects in Craniosynostosis

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