Electrospinning is one of the most promising techniques for generating porous, nonwoven,
and submicron fiber-based membranes for various applications such as catalysis, sensing …

Topography, among other physical factors such as substrate stiffness and extracellular
forces, is known to have a great influence on cell behaviours. Optimization of topographical …

Osteoimmunomodulation has informed the importance of modulating a favorable
osteoimmune environment for successful materials-mediated bone regeneration …

Abstract Electrospun poly (ƹ-caprolactone)(PCL) scaffolds incorporated with bioactive
materials play a key role in tissue engineering applications due to their extra cellular matrix …

Porous biodegradable scaffolds provide a physical substrate for cells allowing them to
attach, proliferate and guide the formation of new tissues. A variety of techniques have been …

Gold nanoparticles (AuNPs) have arisen a lot of interest in the clinical realms of
nanomedicine. Despite the large advances made in cancer research using AuNPs, their use …

Immune cells play vital roles in regulating bone dynamics. Successful bone regeneration
requires a favourable osteo-immune environment. The high plasticity and diversity of …

Surface roughening has long been used to confer materials remarkable wetting properties,
such as super hydrophobicity. When roughness belongs to the microscale, existing models …

Biological additive manufacturing (Bio-AM) has emerged as a promising approach for the
fabrication of biological scaffolds with nano-to microscale resolutions and biomimetic …

Photolithographic fabrication via a" silk sericin photoresist" is used to form precise protein
microstructures directly and rapidly on a variety of substrates. High-resolution and fidelity …