The porous structure design of implants can not only obtain a more lightweight implant but
also provide more space for its cell growth. The technology development of additive …

Titanium (Ti) has been widely used for manufacturing of bone implants because of its
mechanical properties, biological compatibility, and favorable corrosion resistance in …

The current development of nanobiotechnologies requires a better understanding of cell–
surface interactions on the nanometre scale. Recently, advances in nanoscale patterning …

Copper element was added in pure titanium by a powder metallurgy to produce a new
antibacterial titanium–copper alloy (Ti–Cu alloy). This paper reported the very early stage …

The phase constitution and the microstructure Ti–x Cu (x= 2, 5, 10 and 25 wt.%) sintered
alloys were investigated by XRD and SEM and the antibacterial activity was assessed in …

Till date, a variety of efforts have been made to develop the essential properties of
hydroxyapatite as the most promising bioactive ceramic used in a broad spectrum of clinical …

Monophase silver-doped hydroxyapatite (AgxCa10− x (PO4) 6 (OH) 2; 0.002≤ x≤ 0.04)
nanoparticles were prepared using a neutralization method and investigated with respect to …

Various surface modifications have been tried for enhancing osseointegration of the dental
implants like mechanical and/or chemical treatments and deposition of calcium phosphate …

In this research, Ag element was selected as an antibacterial agent to develop an
antibacterial Ti–Ag alloy by a powder metallurgy. The microstructure, phase constitution …

Titanium alloys have gained popularity as a bioimplant material due to their biocompatibility,
low modulus of elasticity, and increased strength. However, other issues, such as corrosion …