par Teng, Karseng;Delplancke, Jean-Luc ;Zhang, Jing ;O'Keefe, Thomas
Référence Metallurgical and materials transactions. B, Process metallurgy and materials processing science, 29, 4, page (749-754)
Publication Publié, 1998
Article révisé par les pairs
Résumé : Thin oxide films were grown at temperatures from 373 to 1073 K in plasma and in air on commercially pure titanium substrates. It was determined that the color, thickness, composition, phase, and polarization behavior in a copper electrolyte varied with operating conditions: temperature, oxygen partial pressure, and plasma composition. High-temperature and high oxygen partial pressure plasma produced a thick oxide film. The surface film structure transformed from TiO2 (anatase) to TiO2 (rutile) at a temperature of 600 °C. A lower oxide of the form TinO2n-1, such as Ti2O3 (which may be porous) or possibly Ti3O5, was formed on a thermally treated sample (400 °C, 80 mtorr O2, 3 hours). This sample exhibited the lowest potential for copper nucleation and gave a very uniform, smooth, and hole-free copper foil.