Title :
Plasma-Treated Biomaterials
Author_Institution :
Dept. of Phys. & Mater. Sci., City Univ. of Hong Kong, Kowloon
fDate :
4/1/2007 12:00:00 AM
Abstract :
Atmospheric pressure plasma spraying is currently used to fabricate relatively thick ceramic coatings for orthopedic applications such as hip joints replacements. We have recently fabricated bioactive nanostructured titanium oxide coatings that are bioactive and conducive to the growth of apatite. The materials are synthesized by nanoparticle atmospheric pressure plasma spraying followed by low-pressure plasma immersion ion implantation (PIII). Surface bioactivity can also be induced by irradiating the nanostructure TiO2 coatings with ultraviolet light instead of hydrogen plasma ion implantation. PIII is a useful method to treat other types of biomaterials to enhance the surface bioactivity. Recent applications of the technology to modify orthopedic materials as well as biocompatible and antibacterial coatings are described in this invited paper
Keywords :
bioceramics; nanostructured materials; orthopaedics; plasma arc sprayed coatings; plasma arc spraying; plasma immersion ion implantation; prosthetics; surface treatment; titanium compounds; ultraviolet radiation effects; PIII; TiO2; antibacterial coatings; apatite growth; atmospheric pressure plasma spraying; bioactive nanostructured titanium oxide coatings; biocompatible coatings; ceramic coatings; hip joints replacements; orthopedic applications; plasma immersion ion implantation; plasma-treated biomaterials; surface bioactivity; ultraviolet light; Atmospheric-pressure plasmas; Biological materials; Coatings; Nanostructured materials; Orthopedic surgery; Plasma applications; Plasma immersion ion implantation; Plasma materials processing; Surface treatment; Thermal spraying; Biocompatibility; biomaterials; plasma immersion ion implantation (PIII); plasma spraying; plasma surface modification;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2006.888587
