Alginate and nanocellulose are potential biomaterials to be employed as bioinks for three-
dimensional (3D) printing. Alginate-cellulose nanofibers (A-CNF) formulations with CNF …

Curcumin and chloramphenicol are drugs with different solubility properties in physiological
conditions due to their hydrophobic and hydrophilic structure, respectively. In this work …

The selection of sacrificial support materials is important in the fabrication of complex
freeform structures. In this study, a dual droplet-based, freeform 3D printing method for …

Three-dimensional (3D) printing has been an emerging technique to fabricate precise
scaffolds for biomedical applications. Cellulose nanofibril (CNF) hydrogels have attracted …

Cellulose nanofibers (NFC) have attracted special attention in the field of extrusion-based
three-dimensional (3D) bioprinting due to their good biocompatibility, excellent mechanical …

The main challenge of extrusion 3D bioprinting is the development of bioinks with the
desired rheological and mechanical performance and biocompatibility to create complex …

We describe herein a nanocellulose–alginate hydrogel suitable for 3D printing. The
composition of the hydrogel was optimized based on material characterization methods and …

Cellulose nanofibrils (CNFs) in the form of hydrogels stand out as a platform biomaterial in
bioink formulation for 3D printing because of their low cytotoxicity and structural similarity to …

3D bioprinting is a versatile technique that allows the fabrication of living tissue analogs
through the layer-by-layer deposition of cell-laden biomaterials, viz. bioinks. In this work …

The introduction of 3D bioprinting is expected to revolutionize the field of tissue engineering
and regenerative medicine. The 3D bioprinter is able to dispense materials while moving in …