A study on biocompatibility and bactericidal properties of pyrolytic carbon by silver ion implantation

The surface antibacterial properties and biocompatibility of biopolymers can be enhanced by means of plasma immersion ion implantation (PIII). In the work described here, the effects of Cu and Ag PIII on polyethylene (PE) are investigated and compared. The growth and behavior of different cell lines

In this study, we have grown silver-containing hydrogenated (a-C:H) and non-hydrogenated (a-C) amorphous carbon coatings by two plasma immersion ion implantation methods: I) chemical vapor deposition of methane combined with pulsed filtered cathodic arc deposition of silver, and II) by alternating a

Various types of pyrolytic carbon, i.e. compact, feathery, brittle, spongy and soot-like, were obtained by acetylene pyrolysis in a flow reactor at 1273 K. The effects of the process variables (acetylene concentration in argon and gas flow rate) on both the solids yield and the relative proportions

Optical second harmonic generation on sllvet electrode surfaces is shown to be highly sxxsitive to surface morphology at potentials within the double layer char&g region. S&,ht alterations in the surface strocture result in the appearance of a strong potential~ependent SH si@xil at biases nc@ive to