Light-based vat-polymerization bioprinting enables computer-aided patterning of 3D cell-
laden structures in a point-by-point, layer-by-layer or volumetric manner, using vat (vats) …

Additive manufacturing (AM), which is based on the principle of layer‐by‐layer shaping and
stacking of discrete materials, has shown significant benefits in the fabrication of …

The regeneration of 3D tissue constructs with clinically relevant sizes, structures, and
hierarchical organizations for translational tissue engineering remains challenging. 3D …

Digital light processing three-dimensional (DLP 3D) printing, as a promising manufacturing
technology with the capability of fabricating 3D objects with complex shapes, typically …

The architecture of the colloidal photonic crystals (CPCs) is of paramount importance to their
functionality and applications. Nevertheless, the realization of CPCs with arbitrarily …

Functionally graded materials (FGMs) are desirable in a variety of applications. Due to a lack
of understanding of design and manufacturing methods, it remains a challenge to engineer …

While the soft mechanics and tunable cell interactions facilitated by hydrogels have attracted
significant interest in the development of functional hydrogel-based tissue engineering …

Poor fiber orientation and mismatched bone–ligament interface fusion have plagued the
regeneration of periodontal defects by cell‐based scaffolds. A 3D bioprinted biomimetic …

Silk fibroin has become a prominent material in tissue engineering (TE) over the last 20
years with almost 10,000 published works spanning in all the TE applications, from skeleton …

Gradient scaffolds are isotropic/anisotropic three-dimensional structures with gradual
transitions in geometry, density, porosity, stiffness, etc., that mimic the biological extracellular …