… The 3D printed constructs were further photocrosslinked for increased stability. When hMSCs
… was high after the 3D printing process and subsequent photocrosslinking. Additionally, …

… living tissue constructs. Embedded bioprinting is an emerging 3D printing strategy that enables
… For the photocrosslinking bioinks such as gelatin methacryloyl (GelMA) and methacrylate …

… of the hydrogel material with gelatines, printing hybrid scaffolds using a thermoplastic as a
structural reinforcement, photocrosslinking … for 3D Bioprinting of cell-laden constructs with high …

… We summarize the field of light-based 3D bioprinting for tissue engineering of different …
photo-crosslinkable polymers are less biologically active than natural photo-crosslinkable …

… advantages for next‐generation 3D bioprinting. 3D bioprinting has emerged as a promising
… ability to produce biofunctional, tissue‐like constructs due to a dearth of materials suitable for …

… printing stability of the interpenetrating network hydrogel through cell viability assays, bioprinting
… our interpenetrating network hydrogels as a biomaterial ink for 3D-bioprinting and bone …

… cells) encapsulated in the bioprinted large‐scale constructs (≥1 cm… It is envisioned that the
advanced bioprinting technology … , and bioprinting large‐scale tissue constructs with nutrient …

… -based 3D bioprinter to create a cartilage construct by using bioink … and delivered with
the 3D bioprinted construct. The cell … photocrosslinkable capacity that can be used for cell-laden …

… The photocrosslinked composite structure owns A/C structure with low/high mechanical …
hydrogen bonds on defect–hydrogel interface after photocrosslinking. Conveniently, this bioink …

… mechanical support before photocrosslinking. Consequently, … microextrusion 3D bioplotting
technique using a low-hydrogel… strength of the resulting constructs. The thermal responsivity …