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Hauptverfasser: Khaksar, Hesam, Mittal, Prashant, Daghbouj, Nabil, Cios, Grzegorz, Polcar, Tomas, Gnecco, Enrico
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2508.18923
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author Khaksar, Hesam
Mittal, Prashant
Daghbouj, Nabil
Cios, Grzegorz
Polcar, Tomas
Gnecco, Enrico
author_facet Khaksar, Hesam
Mittal, Prashant
Daghbouj, Nabil
Cios, Grzegorz
Polcar, Tomas
Gnecco, Enrico
contents The wear behavior of two amorphous and polycrystalline forms of MoS2 prepared by magnetron sputtering has been characterized in a combined nanoindentation and atomic force microscopy study. From the analysis of the depth and width of wear tracks estimated after scratching the surfaces with a Berkovich indenter and a loading force up to 2 mN, we conclude that both forms follow the Archard wear equation, and the wear resistance is about four times higher on the amorphous MoS2. Moreover, a comparison of lateral force maps on pristine and worn areas shows a considerable reduction of friction on both forms, which is possibly due to the significant smoothing of the surfaces caused by scratching. With normal forces in the micro N range, the analysis is made difficult by the fact that the linear dimensions of the wear tracks are comparable to those of the granular structures forming the surfaces. Even if the Archard equation could not be tested in this case, the wear resistance is considerably larger on amorphous MoS2 also on the nanoscale. In this way, our results disclose information on the nanotribology of MoS2 thin films in forms different from the layered structures commonly discussed in the literature. The amorphous form outperforms the polycrystalline one.
format Preprint
id arxiv_https___arxiv_org_abs_2508_18923
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A comparative nanotribological investigation on amorphous and polycrystalline forms of MoS2
Khaksar, Hesam
Mittal, Prashant
Daghbouj, Nabil
Cios, Grzegorz
Polcar, Tomas
Gnecco, Enrico
Materials Science
The wear behavior of two amorphous and polycrystalline forms of MoS2 prepared by magnetron sputtering has been characterized in a combined nanoindentation and atomic force microscopy study. From the analysis of the depth and width of wear tracks estimated after scratching the surfaces with a Berkovich indenter and a loading force up to 2 mN, we conclude that both forms follow the Archard wear equation, and the wear resistance is about four times higher on the amorphous MoS2. Moreover, a comparison of lateral force maps on pristine and worn areas shows a considerable reduction of friction on both forms, which is possibly due to the significant smoothing of the surfaces caused by scratching. With normal forces in the micro N range, the analysis is made difficult by the fact that the linear dimensions of the wear tracks are comparable to those of the granular structures forming the surfaces. Even if the Archard equation could not be tested in this case, the wear resistance is considerably larger on amorphous MoS2 also on the nanoscale. In this way, our results disclose information on the nanotribology of MoS2 thin films in forms different from the layered structures commonly discussed in the literature. The amorphous form outperforms the polycrystalline one.
title A comparative nanotribological investigation on amorphous and polycrystalline forms of MoS2
topic Materials Science
url https://arxiv.org/abs/2508.18923