Geodesic
Structure and properties of carbon films produced by electron-beam evaporation in vacuum
Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ, Matematika, mehanika, fizika, no. 7 (2012), pp. 130-137 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

Graphene, a one-atom thick, two-dimensional sheet of carbon atoms, approve oneself as a promising material for nanoelectronic devices. Here we proposed the method of producing this material by an electron beam evaporation of a carbon crystal in a vacuum chamber (equipment produced by TORR INTERNATIONAL, INC.). We obtained series of samples of films with different thickness and substrate temperatures and measured their surface resistance with a 4-pinned resistance measurer. The samples were measured at room temperature. We found out, that our samples as well as graphene sheets are transparent, while overlapping two films together their transparence decreases. We found out a dependence of thickness and the substrate temperature on the film resistance. Also we found out a dependence of the substrate temperature on an undulation of obtained carbon films.
Mots-clés : graphene, carbon
Keywords: electron beam evaporation, carbon films, thin films. 
@article{VYURM_2012_7_a17,
     author = {A. A. Troitskiy and V. M. Berezin and V. S. Lukashev},
     title = {Structure and properties of carbon films produced by electron-beam evaporation in vacuum},
     journal = {Vestnik \^U\v{z}no-Uralʹskogo gosudarstvennogo universiteta. Seri\^a, Matematika, mehanika, fizika},
     pages = {130--137},
     year = {2012},
     number = {7},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/VYURM_2012_7_a17/}
}
TY  - JOUR
AU  - A. A. Troitskiy
AU  - V. M. Berezin
AU  - V. S. Lukashev
TI  - Structure and properties of carbon films produced by electron-beam evaporation in vacuum
JO  - Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ, Matematika, mehanika, fizika
PY  - 2012
SP  - 130
EP  - 137
IS  - 7
UR  - http://geodesic.mathdoc.fr/item/VYURM_2012_7_a17/
LA  - ru
ID  - VYURM_2012_7_a17
ER  - 
%0 Journal Article
%A A. A. Troitskiy
%A V. M. Berezin
%A V. S. Lukashev
%T Structure and properties of carbon films produced by electron-beam evaporation in vacuum
%J Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ, Matematika, mehanika, fizika
%D 2012
%P 130-137
%N 7
%U http://geodesic.mathdoc.fr/item/VYURM_2012_7_a17/
%G ru
%F VYURM_2012_7_a17
A. A. Troitskiy; V. M. Berezin; V. S. Lukashev. Structure and properties of carbon films produced by electron-beam evaporation in vacuum. Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ, Matematika, mehanika, fizika, no. 7 (2012), pp. 130-137. http://geodesic.mathdoc.fr/item/VYURM_2012_7_a17/

[1] P. R. Wallace, “The band theory of graphite”, Phys. Rev., 71:9 (1947), 622–634 | DOI | Zbl

[2] A. K. Geim, K. S. Novoselov, “The rise of graphene”, Nature Mater., 6 (2007), 183–191 | DOI

[3] F. Schwierz, “Graphene Transistors”, Nature Nanotech., 5 (2010), 487–496 | DOI

[4] Gong Gu, Shu Nie, R. M. Feenstra et al., “Field effect in epitaxial graphene on a silicon carbide substrate”, Appl. Phys. Lett., 90 (2007), 253507 | DOI

[5] A. K. Geim, “Graphene: Status and Prospects”, Science, 324 (2009), 1530–1534 | DOI

[6] J. R. Williams, L. DiCarlo, C. M. Marcus, “Quantum Hall Effect in a Gate-Controlled p-n Junction of Graphene”, Science, 317 (2007), 638–641 | DOI

[7] Yu-Ming Lin, Alberto Valdes-Garcia, Shu-Jen Han et al., “Wafer-Scale Graphene Integrated Circuit”, Science, 332 (2011), 1294–1297 | DOI

[8] C. R. Dean, A. F. Young, I. Eric, “Boron nitride substrates for high-quality graphene electronics”, Nanotech., 5 (2010), 722–726 | MR

[9] K. S. Novoselov, “Mind the Gap”, Nature Mater., 6 (2007), 720–721 | DOI

[10] D. Usachov, V. K. Adamchuk, “Quasifreestanding single-layer hexagonal boron nitride as a substrate for graphene synthesis”, Phys. Rev. B, 82 (2010), 075415 | DOI

[11] Zhihong Chen, Yu-Ming Lin, M. J. Rooks, Phaedon Avouris, “Graphene nano-ribbon electronics”, Physica E: Low-dimensional Systems and Nanostructures, 40:2 (2010), 228–232

[12] S. Bae, H. Kim, Y. Lee et al., “Roll-to-roll production of 30-inch graphene films for transparent electrodes”, Nature Nanotechnology, 5 (2010), 574–578 | DOI

[13] R. R. Nair, P. Blake, A. N. Grigorenko, “Fine Structure Constant Defines Visual Transparency of Graphene”, Science, 320 (2008), 1308 | DOI

[14] Sinel'nikov B. M., Tarala V. A., Materialy elektron. tekhniki, 2010, no. 1, 32–40 (in Russ.)

[15] Vasil'ev V. A., Chernov P. S., Nano- i mikrosistemnaia tekhnika, 2011, no. 11, 11–16 (in Russ.)