Degradable biomedical elastomers (DBE), characterized by controlled biodegradability,
excellent biocompatibility, tailored elasticity, and favorable network design and …

Droplet microfluidic techniques have long been known as a high-throughput approach for
cell manipulation. The capacity to compartmentalize cells into picolitre droplets in …

Creating functional tissues and organs in vitro on demand is a major goal in biofabrication,
but the ability to replicate the external geometry of specific organs and their internal …

Cancer models play critical roles in basic cancer research and precision medicine.
However, current in vitro cancer models are limited by their inability to mimic the three …

Transplantation of mesenchymal stem cells (MSCs) holds promise to repair severe traumatic
injuries. However, current transplantation practices limit the potential of this technique, either …

Marine organisms provide novel and broad sources for the preparations and applications of
biomaterials. Since the urgent requirement of bio‐hydrogels to mimic tissue extracellular …

Abstract Three-dimensional (3D) bioprinting has emerged as a promising approach for
engineering functional tissues and organs by layer-by-layer precise positioning of biological …

Three-dimensional (3D) printing techniques for scaffold fabrication have shown promising
advancements in recent years owing to the ability of the latest high-performance printers to …

The significance of bioink suitability for the extrusion bioprinting of tissue-like constructs
cannot be overemphasized. Gelatin, derived from the hydrolysis of collagen, not only can …

Hydrogels have been widely applied to the fabrication of tissue engineering scaffolds via
three-dimensional (3D) bioprinting because of their extracellular matrix-like properties …