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- ItemSingle layer graphene induces load-bearing molecular layering at the hexadecane-steel interface(Bristol : Institute of Physics Publishing, 2019) Krämer, G.; Kim, C.; Kim, K.-S.; Bennewitz, R.The influence of a single layer graphene on the interface between a polished steel surface and the model lubricant hexadecane is explored by high-resolution force microscopy. Nanometer-scale friction is reduced by a factor of three on graphene compared to the steel substrate, with an ordered layer of hexadecane adsorbed on the graphene. Graphene furthermore induces a molecular ordering in the confined lubricant with an average range of 4-5 layers and with a strongly increased load-bearing capacity compared to the lubricant on the bare steel substrate. © 2019 IOP Publishing Ltd.
- ItemImportance of surface oxide for the tribology of a Zr-based metallic glass(Heidelberg : Springer, 2017) Kang, S.J.; Rittig, Kai Thomas; Kwan, S.G.; Park, H.W.; Bennewitz, Roland; Caron, ArnaudThermally grown surface oxide layers dominate the single-asperity tribological behavior of a Zr60Cu30Al10 glass. Increase in oxidation time leads to an increased contribution of shearing and a corresponding decreased contribution of ploughing to friction. This change in the dominating friction and wear mechanism results in an overall minor decrease of the friction coefficient of oxidized surfaces compared to the metallic glass sample with native surface oxide. Our results demonstrate the importance of creating a stable oxide layer for practical applications of metallic glasses in micro-devices involving sliding contact.