1. Kovalev, E.P., Ignat’ev, M.B., Semenov, A.P., Smirnov, N.I., Nevolin, V.N., and Fominskii, V.Yu., Solid-lubrication coatings for machines and mechanisms working in extremal conditions, Trenie Iznos, 2004, vol. 25, pp. 337–343.
2. Romanov, R.I., Fominskii, V.Yu., Baskakov, D.E., Matsnev, N.P., and Sharf, V., Triboengineering properties of nanocomposites W-Se-C-coatings on steel during tests in the air, Trenie Iznos, 2004, vol. 25, pp. 57–62.
3. Polcar, T. and Cavaleiro, A., Review on self-lubricant transition metal dichalcogenide nanocomposite coatings alloyed with carbon, Surf. Coat. Technol., 2011, vol. 206, pp. 686–695.
4. Nyberg, H., Sundberg, J., Sarhammar, E., Gustavsson, F., Kubart, T., Nyberg, T., Jansson, U., and Jacobson, S., Extreme friction reductions during initial running-in of W-S-C-Ti low-friction coatings, Wear, 2013, vol. 302, pp. 583–589.
5. Zhang, X., Vitchev, R.G., Lauwerens, W., Stals, L., He, J., and Celis, J.-P., Effect of crystallographic orientation on the fretting wear behavior of MoSx coatings in dry and humid air, Thin Solid Films, 2001, vol. 396, pp. 69–77.