Self‐healing hydrogels based on metal–ligand coordination chemistry provide new and
exciting properties that improve injectability, rheological behaviors, and even biological …

Tissue engineering with scaffolds provides novel prospects for bone/cartilage damage
healing. Previous studies mainly focus on the development of physical/chemical property of …

Cartilage regeneration remains a current challenge with no satisfactory strategy in surgery.
Hydrogels with structurally and biochemically biomimicking characteristics have been …

Bioinks are the basic building blocks for the fabrication of 3D bioprinted constructs. These
bioinks play key roles in structural support, adhesion, and differentiation of incorporated …

Stimuli-responsive hydrogels are known as a new category of smart materials with
responsivity toward various stimulants. Controllable reversible bond dissociation and …

Electrospun nanofibers have been extensively explored as a class of scaffolding materials
for tissue regeneration, because of their unique capability to mimic some features and …

The development of biologically relevant three-dimensional (3D) tissue constructs is
essential for the alternative methods of organ transplantation in regenerative medicine, as …

The application of hydrogels coupled with 3-dimensional (3D) printing technologies
represents a modern concept in scaffold development in cartilage tissue engineering (CTE) …

It is a challenging task to develop active biomacromolecular wound dressing materials that
are biocompatible and possesses antibacterial properties against the bacterial strains that …

Stem cell theranostics has received much attention for noninvasively monitoring and tracing
transplanted therapeutic stem cells through imaging agents and imaging modalities. Despite …