Given their durability and long‐term stability, self‐healable hydrogels have, in the past few
years, emerged as promising replacements for the many brittle hydrogels currently being …

Tissue engineering is an important field of regenerative medicine, which combines scaffolds
and cell transplantation to develop substitute tissues and/or promote tissue regeneration …

Diabetic wound healing still faces great challenges due to the excessive inflammation, easy
infection, and impaired angiogenesis in wound beds. The immunoregulation of …

Graphene and its chemical derivatives have been a pivotal new class of nanomaterials and
a model system for quantum behavior. The material's excellent electrical conductivity …

Regenerative medicine holds the promise of engineering functional tissues or organs to
heal or replace abnormal and necrotic tissues/organs, offering hope for filling the gap …

Functional graphene nanomaterials (FGNs) are fast emerging materials with extremely
unique physical and chemical properties and physiological ability to interfere and/or interact …

Mimicking the anisotropic cardiac structure and guiding 3D cellular orientation play a critical
role in designing scaffolds for cardiac tissue regeneration. Significant advances have been …

Heart disease is the main cause of death worldwide. Because death of the myocardium is
irreversible, it remains a significant clinical challenge to rescue myocardial deficiency …

Chronic wounds have emerged as a major cause of mortality, especially in patients with
diabetes and other pathologies. Statistics indicate that chronic wounds affect around 6.5 …

In the human body, many soft tissues with hierarchically ordered composite structures, such
as cartilage, skeletal muscle, the corneas, and blood vessels, exhibit highly anisotropic …