Chapter 7 - Growth Mechanisms and Structure of Fullerene-like Carbon-based Thin Films: Superelastic Materials for Tribological Applications, in Fullerene Research Advances


Chapter 7 - Growth Mechanisms and Structure of Fullerene-like Carbon-based Thin Films: Superelastic Materials for Tribological Applications, in Fullerene Research Advances

Gago, R.; Abrasonis, G.; Jimenez, I.; Möller, W.

In this chapter we review our findings on the bonding structure and growth mechanisms of carbon-based thin solid films with fullerene-like (FL) microstructure. The so-called FL arrangements arise from the curvature and cross-linking of basal planes in graphitic-like structures, partially resembling that of molecular fullerenes. This three-dimensional superstructure takes advantage of the strength of planar pi bonds in sp2 hybrids and confers the material interesting mechanical properties, such as high hardness, high elastic recovery, low-friction and wear-resistance. These properties can be tailored by controlling the curvature, size and connectivity of the FL arrangements, making these materials promising coatings for tribological applications. We have focused our interest mostly on carbon nitride (CNx) since nitrogen promotes the formation of FL arrangements at low substrate temperatures and they are emerging over pure carbon coatings in tribological applications such as protective overcoats in magnetic hard disks. We address structural issues such as origin of plane curvature, nature of the cross-linking sites and sp2 clustering, together with growth mechanisms based on the role of film-forming precursors, chemical re-sputtering or concurrent ion assistance during growth.

  • Contribution to external collection
    Carl N. Kramer: Fullerene Research Advances, New York, USA: Nova Science Publishers, 2007, 1-60021-824-5, 145-181

Permalink: https://www.hzdr.de/publications/Publ-11479
Publ.-Id: 11479