Tribological characteristics of atomic-scale niobium diselenide grown via chemical vapor deposition.

The nanoscale tribological characteristics of atomic-layered niobium diselenide (NbSe₂) were investigated using atomic force microscopy (AFM). Two-dimensional NbSe₂ atomic layers were produced on a weakly-adherent silicon wafer using two different methods: (1) mechanical exfoliation and (2) controlled synthesis via chemical vapor deposition. Using an AFM cantilever tip, a normal force was applied on the NbSe₂ atomic-scale thin films in order to measure friction force. The as-synthesized NbSe₂ thin films exhibited atomic lattice stick-slip friction, with the thinnest sheets showing a sliding length-dependent increase in static friction. This tendency is attributed to the increased susceptibility of the thinner chemically-synthesized NbSe₂ sheets toward out-of-plane elastic deformation. [ABSTRACT FROM AUTHOR]