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Stacking stability and sliding mechanism in weakly bonded 2D transition metal carbides by van der Waals force
Ist Teil von
RSC advances, 2017, Vol.7 (88), p.55912-55919
Ort / Verlag
Cambridge: Royal Society of Chemistry
Erscheinungsjahr
2017
Quelle
EZB Electronic Journals Library
Beschreibungen/Notizen
The stability of the stacked two-dimensional (2D) transition metal carbides and their interlayered friction in different configurations are comparatively studied by means of density functional theory (DFT). At equilibrium, a larger interlayer distance corresponds to a smaller binding energy, suggesting an easier sliding between them. The oxygen-functionalized M
2
CO
2
possesses much lower sliding resistance than the bare ones due to the strong metallic interactions between the stacked M
2
C layers. Compared to the parallel stacking order of M
2
CO
2
-I, the mirror stacked M
2
CO
2
-II possesses better lubricant properties. At strained states, normal compression substantially enhances the sliding barrier owing to more charges transferring from the M to O atom. Furthermore, the in-plane biaxial strain may effectively hinder the interlayer sliding, while the uniaxial strain fundamentally modifies the preferred sliding pathway due to anisotropic expansion of surface electronic state. These results highlight that the functionalized MXenes with strain-controllable frictional properties are promising lubricating materials because of their low sliding energy barrier and excellent mechanical properties.