Biomacromolecule coating on biomedical magnesium alloys have generated considerable
interest for the improved corrosion resistance and biocompatibility. Silk fibroin (SF) based on …

Owing to their excellent biocompatibility and corrosion-resistant properties, titanium (Ti)(and
its alloy) are essential artificial substitute biomaterials for orthopedics. However, flaws, such …

Nanostructured surfaces feature promising biological properties on biomaterials attracting
large interest at basic research, implant industry development, and bioengineering …

Surface modification of surgical grade titanium implants to promote bone cell integration and
prevent infection is an urgent problem in orthopedic surgery. The synergistic effect of silk …

The biocompatibility of titanium alloys used as implant material is enhanced by TiO 2
nanotubes. Particles deposited on TiO 2 nanotubes for antibacterial purposes may affect …

In tissue engineering technique, a biological scaffold with appropriate composition and
structure for promoting growth and differentiation of cells thereby regenerating damaged …

The review encompasses state-of-the-art strategies for design and fabrication of smart
biomaterials for tissue engineering. The focus of the work is mainly put on metallic …

In order to meet the clinical demand for titanium implants, the heterogeneous structure of TiO
2/SrTiO 3 coating was in situ fabricated on the surface of Ti6Al4V alloy by a facile way. The …

Hard tissues, eg, bone, are mechanically stiff and, most typically, mineralized. To design
scaffolds for hard tissue regeneration, mechanical, physico-chemical and biological cues …

Abstract Micro/nano-topography (MNT) is an important factor affecting cell response. Earlier
studies using titania (TiO 2) nanotube as a model of MNT found that they mediated the …