Anodised titanium has a long history as a coating structure for implants due to its bioactive
and ossified surface, which promotes rapid bone integration. In response to the growing …

In this study, apatite formation ability on TiO 2 nanotubes (TNTs) synthesized by anodizing
process were compared with TNTs decorated by MnO nanoparticles. The MnO …

The surface activation of titanium plays a key role in the biological properties of titanium
implants as bone repair materials. Improving the ability to induce apatite precipitation on the …

The osteo-bioactive potential of biomaterials can be modulated by altering material
properties such as chemical composition, surface topography, and geometry. The …

Photocatalytic TiO 2 layers were deposited by anodic oxidation on high purity titanium
substrates followed by ultraviolet light A (UVA) irradiation in solutions of varying pH (1, 4, 7 …

Low-temperature coating deposition is carried out at or near ambient temperature
temperatures, much below the incongruent melting point of hydroxyapatite. However …

Appending diverse quantities of additional elements to the anodizing solution leads to the
formation of a highly corrosion-resistant and biocompatible anodic Ti oxide (ATO) on the …

This study examined the effect of changes to the surface of CaP-based anodised titanium on
osteogenesis and antimicrobial activity in vitro. The present work is proposed to investigate …

Anodic oxidation (AO) of titanium is a common electrochemical process for surface
modification of metallic surfaces and is conducted in an electrolyte solution. Anodisation of …

Bioactive coatings were prepared on titanium foils using anodic oxidation at applied voltage
of 350 V and current density of 70 mA· cm− 2 for 10 min. New formulation of electrolyte was …