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 m...
project No GA17-08531S – “Computational design of hydrogel cell scaffolds“ (Grant Agency of the Czec...
Hydrogel has been a promising candidate to recapitulate the chemical, physical and mechanical proper...
The proliferation of computer-aided design and additive manufacturing enables on-demand fabrication ...
Three-dimensional (3D) hydrogel printing enables production of volumetric architectures containing d...
Three-dimensional printing (3DP) uses inkjet printheads to selectively deposit liquid binder to adjo...
Polyion complex (PIC) hydrogels have been proposed as promising engineered soft materials due to the...
Additive manufacturing (AM) of hydrogels has gained increasing interest across various fields. Drop-...
There is great hope in 3D printing techniques to create patient specific scaffolds for therapeutic a...
Despite their highly attractive properties, 3D printing of hydrogel materials can be rather challeng...
Increasing demand for customized implants and tissue scaffolds requires advanced biomaterials and fa...
Inkjet printing is widely considered a promising strategy to pattern hydrogels and living cells into...
Extrusion-based 3D bioprinting is a direct deposition approach used to create three-dimensional (3D)...
We demonstrate the additive manufacturing of complex three-dimensional (3D) biological structures us...
The synergy of hydrogel processing and 3D printing technologies has paved the way for the developmen...
In the past three decades, microtissue models grown inside miniaturized fluidic systems fabricated u...
project No GA17-08531S – “Computational design of hydrogel cell scaffolds“ (Grant Agency of the Czec...
Hydrogel has been a promising candidate to recapitulate the chemical, physical and mechanical proper...
The proliferation of computer-aided design and additive manufacturing enables on-demand fabrication ...
Three-dimensional (3D) hydrogel printing enables production of volumetric architectures containing d...
Three-dimensional printing (3DP) uses inkjet printheads to selectively deposit liquid binder to adjo...
Polyion complex (PIC) hydrogels have been proposed as promising engineered soft materials due to the...
Additive manufacturing (AM) of hydrogels has gained increasing interest across various fields. Drop-...
There is great hope in 3D printing techniques to create patient specific scaffolds for therapeutic a...
Despite their highly attractive properties, 3D printing of hydrogel materials can be rather challeng...
Increasing demand for customized implants and tissue scaffolds requires advanced biomaterials and fa...
Inkjet printing is widely considered a promising strategy to pattern hydrogels and living cells into...
Extrusion-based 3D bioprinting is a direct deposition approach used to create three-dimensional (3D)...
We demonstrate the additive manufacturing of complex three-dimensional (3D) biological structures us...
The synergy of hydrogel processing and 3D printing technologies has paved the way for the developmen...
In the past three decades, microtissue models grown inside miniaturized fluidic systems fabricated u...
project No GA17-08531S – “Computational design of hydrogel cell scaffolds“ (Grant Agency of the Czec...
Hydrogel has been a promising candidate to recapitulate the chemical, physical and mechanical proper...
The proliferation of computer-aided design and additive manufacturing enables on-demand fabrication ...