Rheology plays a crucial role in the field of extrusion-based three-dimensional (3D) printing,
particularly in the context of hydrogels. Hydrogels have gained popularity in 3D printing due …

The rapid development of additive manufacturing, also known as three-dimensional (3D)
printing, is driving innovations in both industry and academia. Direct ink writing (DIW), an …

Three-dimensional bioprinting is a promising technology for bone tissue engineering.
However, most hydrogel bioinks lack the mechanical and post-printing fidelity properties …

The trial-and-error method currently used to create formulations with excellent printability
demands considerable time and resources, primarily due to the increasing number of …

Even though a substantial amount of research has been undertaken in the domains of
bioprinting over the last few years, various challenges exist concerning printability. One of …

Herein, 3D printing coupled with drug‐release systems introduces many advantages to
bone‐regenerative medicine. In this research, hydrogel‐based nanocomposite inks …

Among various available 3D bioprinting techniques, extrusion-based three-dimensional
(3D) bioprinting allows the deposition of cell-laden bioink, ensuring predefined scaffold …

This study investigated the stability and rheological properties of multiphase systems
comprising red palm oil and water, with zinc oxide nanoparticles (ZnO) as stabilizers …

The aim of this study was to develop a composite thermosensitive hydrogel for bone
regeneration applications. This hydrogel consisted of chitosan, alginate and hydroxyapatite …

The present study was conducted to manipulate various biomaterials to find potential
hydrogel formulations through three-dimensional (3D) bioprinting fabrication for tissue …