MF

M. Fazel

2 records found

Osteogenic and antibacterial surfaces on additively manufactured porous Ti-6Al-4V implants

Combining silver nanoparticles with hydrothermally synthesized HA nanocrystals

The recently developed additively manufacturing techniques have enabled the fabrication of porous biomaterials that mimic the characteristics of the native bone, thereby avoiding stress shielding and facilitating bony ingrowth. However, aseptic loosening and bacterial infection, ...
The performance of biomaterials in general and orthopaedic biomaterials in particular is dependent on both the chemistry and topography of their surfaces. It is therefore important to tailor both of those aspects through an appropriate surface modification technique. Here, we exa ...