… After printing, the structure was photocrosslinked with UV irradiation (365 nm, 10 mW/cm 2 ,
2 … Extrusion-printing of hydrogel filaments Towards extrusion-based 3D printing, we studied …

… hydrogels with improved mechanical properties. First, photocrosslinking was used to
construct the initial shape of the hydrogel. Then, using Ca 2+ independent mTGase solution, the …

Three-dimensional (3D) printing is well acknowledged to constitute an important technology …
In 3D bioprinting, which is a step ahead of 3D biomaterial printing, the ink employed is …

… 3D printing for bioprinting applications. An overview of bioink materials, including the natural
polymers and synthetic polymers used for 3D printing … for 3D bioprinting articular cartilage. …

… The thickness of a single layer was set to 100 μm for printing. The initial three layers … the
photocrosslinked 3D constructs from becoming separated from the plate (Figure 1A). All printing …

… , photocrosslinking and the use of photosensitive hydrogels have … , photocrosslinking can
be spatially controlled in 3D printing. … the 3D printing strategies used for photocrosslinkable …

… for extrusion bioprinting, and its hydrogel precursor polymer can … printed construct through
photocrosslinking. Moreover, the … However, 3D bioprinting has a notable advantage because it …

… Various photo-cross-linkable biomaterials with vinyl derivatives have been increasingly …
to evaluate the printing fidelity (Figure 4). First, we conducted DLP 3D printing of a serpentine …

… dynamic/photocrosslinking strategy to develop a DN hydrogel bio-ink. Two natural biomaterials,
gelatin and hyaluronic acid (HA), were used to prepare the bio-ink for 3D printing tissue …

… of various concentrations of HA was 3D-bioprinted into porous hydrogel constructs using
an in-lab modified BIO-X 3D Bioprinter. The 3D-fabricated constructs were cross-linked via …