Versatile strategies have been developed to construct electrospun fiber-based drug delivery
systems for tissue regeneration and cancer therapy. We first introduce the construction of …

Neuronal microenvironment imbalance is associated with successive and irreversible
pathophysiological changes and insufficient functional restoration after peripheral nerve …

Electrospinning (e‐spin) technique has emerged as a versatile and feasible pathway for
constructing diverse polymeric fabric structures, which show potential applications in many …

Nerve guidance conduits (NGCs) have become a promising alternative for peripheral nerve
regeneration; however, the outcome of nerve regeneration and functional recovery is greatly …

Polymeric carbon nitrides (CN) as star semiconductive materials have attracted increasing
attention owing to its numerous superior features, such as facile synthesis, non-toxicity, earth …

Fabrication of functional scaffolds for tissue engineering and regenerative medicine
applications requires material systems with precise control over cellular performance. 3D …

Due to the complex structural hierarchy and regenerative microenvironment of peripheral
nerves, developing a nerve guidance conduit (NGC) that can replace autografts for repairing …

Abstract 2D transition metal borides (MBenes) have emerged as promising post‐MXene
materials with potential application in various biotechnological fields. Although they possess …

In tissue engineering, bioactive materials play an important role, providing structural support,
cell regulation and establishing a suitable microenvironment to promote tissue regeneration …

Nerve guidance conduits (NGCs) have attracted much attention due to their great necessity
and applicability in clinical use for the peripheral nerve repair. Great efforts in recent years …