Corrosion prevention in biomaterials has become crucial particularly to overcome
inflammation and allergic reactions caused by the biomaterials' implants towards the human …

The propose of this review was to summarize the advances in multi-scale surface
technology of titanium implants to accelerate the osseointegration process. The several multi …

The current state-of-the-art metal additive manufacturing (AM) process still cannot meet the
high industry requirements in terms of surface roughness. In addition, there are limited …

Stem cells respond to nanoscale surface features, with changes in cell growth and
differentiation mediated by alterations in cell adhesion. The interaction of nanotopographical …

Biomaterials in the form of scaffolds hold great promise in the regeneration of diseased
tissues. The scaffolds stimulate cellular adhesion, proliferation and differentiation. While the …

In the area of materials science, corrosion of biomaterials is of paramount importance as
biomaterials are required for the survival of the human beings suffering from acute heart …

An appropriate cellular response to implanted surfaces is essential for tissue regeneration
and integration. It is well described that implanted materials are immediately coated with …

With an ageing population, war, and sports related injuries there is an ever-expanding
requirement for hard tissue replacement such as bone. Engineered artificial scaffold …

Titanium (Ti)-based alloys exhibit low elastic modulus that better match the modulus of
human bones than several other metallic biomaterials while providing high strength to …

To investigate the roles of composition and characteristics of titanium surface oxides in
cellular behaviour of osteoblasts, the surface oxides of titanium were modified in …