The structure of films and coatings obtained by condensation of metal (Cu, Al, Ni, Ti) atoms and C60-fullerene molecules from combined flows of these atoms and molecules in a vacuum and the electrical and frictional properties of the indicated films and coatings were investigated. It was established that the introduction of fullerenes into metal films and coatings substantially changes their structure and the electrical and frictional characteristics (by several times in some cases) even if the content of C60 in them comprises 1.0 wt.%. It is shown that fullerenes can be used to advantage for control of the structure and properties of materials.
Similar content being viewed by others
References
R. A. Andrievskii, Nanomaterials of the Metal Type under Extreme Conditions [in Russian], Laboratoriya Znanii, Moscow (2016).
E. M. Shpilevsky, S. A. Zhdanok, and D. V. Schur, Containing carbon nanoparticles materials in hydrogen energy: in Hydrogen Carbon Nanomaterials in Clean Energy Hydrogen Systems-II, Springer Sci., Dordrecht (2011), pp. 23–39.
F. Langa and J.-F. Nierengarten, Fullerenes Principles and Applications, Royal Soc. Chem., Cambridge (2007).
M. E. Shpilevsky, E. M. Shpilevsky, and V. F. Stel'makh, Fullerenes and fullerene-like structures: the basis for promising materials, J. Eng. Phys. Thermophys., 74, No. 6, 1499–1508 (2001).
P. A. Vityaz and E. M. Shpilevsky, Fullerenes in matrices of different substances, J. Eng. Phys. Thermophys., 85, No. 4, 780–787 (2012).
E. M. Shpilevsky, M. E. Shpilevsky, Y. I. Prylutskyy, L. Y. Matzuy, M. I. Zakharenko, and F. Le Normand, Structure and properties of C60 fullerene films with titanium atoms, Mat.-wiss. Werkstofftech., 42, No. 1, 59–63 (2011).
I. V. Zaporotskova, Carbon and Noncarbon Nanomaterials and Composite Structures on Their Basis: Structure and Electronic Properties [in Russian], Izd. VolGU, Volgograd (2009).
E. M. Shpilevsky, G. G. Gorokh, and M. E. Shpilevsky, Diffusion mass transfer in systems with nanometer structural elements, in: Proc. XV Minsk Int. Forum on Heat and Mass Transfer, 23–26 May 2016, ITMO im. A. V. Luikova NAN Belarusi, Minsk (2016), Vol. 2, pp. 300–304.
T. A. Shabanova, N. G. Prikhod′ko, M. Auyelkhankyzy, and Z. A. Mansurov, Fullerites and "growth structures" of nanoobjects, J. Eng. Phys. Thermophys., 89, No. 4, 1034–1040 (2016).
E. M. Shpilevsky, G. G. Gorokh, and M. E. Shpilevsky, Functional coatings containing fullerenes, in: High Technologies in the Industry of Russia [in Russian], MGTI im. N. É. Baumana, Moscow (2014), pp. 82–90.
E. M. Shpilevsky, O. G. Penyazkov, S. A. Filatov, G. Shilagardi, P. Tuvshintur, D. Timur-Bator, and D. Ulam-Orgikh, Modification of materials by carbon nanoparticles, Solid State Phenom., 271, 70–75 (2018).
E. Yu. Kalyadina, L. A. Matveeva, P. L. Nelyuba, and E. F. Venger, Analysis of the fundamental adsorption edge of the films obtained from the C60 molecular beam in vacuum and effect of internal mechanical stresses on it, SPQEO, 18, No. 3, 349–353 (2015).
E. M. Shpilevsky, Structure and physical properties of metal–fullerene thin films, Vakuum. Nauka Tekhnol., 23, No. 1, 73–77 (2014).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 91, No. 6, pp. 1621–1627, November–December, 2018.
Rights and permissions
About this article
Cite this article
Shpilevsky, E.M., Filatov, S.A., Shilagardi, G. et al. Metal–Fullerene Films and Coatings. Production and Some Properties. J Eng Phys Thermophy 91, 1543–1549 (2018). https://doi.org/10.1007/s10891-018-1891-z
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10891-018-1891-z