Influence of doping „Ti, V, Zr, W… and annealing on the sp2 carbon structure of amorphous carbon films

13. 02. 2009

C. Adelhelm, M. Balden, M. Rinke and M. Stueber

The influence of the transition metal
Ti, V, Zr, W doping on the carbon matrix nanostructuring during the thin film growth and subsequent annealing is investigated. Pure and metal-doped amorphous carbon films
a-C, a-C:Me were deposited at room temperature by nonreactive magnetron sputtering. The carbon structure of as-deposited and postannealed
up to 1300 K samples was analyzed by x-ray diffraction
XRD and Raman spectroscopy. The existence of graphenelike regions in a-C is concluded from a
10 diffraction peak. A comparison of the XRD and Raman results suggests that XRD probes only the small amount of 2–3 nm large graphenelike regions, whereas the majority of the sp2 phase is present in smaller distorted aromatic clusters which are probed only by Raman spectroscopy. Annealing leads to an increase in the graphene size and the aromatic cluster size. During the carbon film growth the addition of metals enhances ordering of sp2 carbon in sixfold aromatic clusters compared to a-C; Ti, and Zr showing the strongest effect, W the lowest. This order qualitatively corresponds with the catalytic activity of the respective carbides found during graphitization of carbide-doped graphites published in the literature. With annealing, carbide crystallite formation and growth occurs in a-C:Me films, which destroys the initial carbon structure, reduces the size of the initially formed aromatic clusters and the differences in carbon structure introduced by different dopants. For high annealing temperatures the carbon structure of a-C:Me films is similar to that of a-C, and is determined only by the annealing temperature.