Electrical properties of “metal-carbon film” contact

Magnetron sputtering was used to obtain carbon films on of metal substrates of two types: titanium and tool chromium steel. The temperature dependence of the resistance of the films, which has a semiconductor character, has been studied. The current-voltage characteristics of the metal-carbon film contact were determined, which indicate the presence of the Schottky barrier junction.

1. Henish H.K. Semiconductor rectifying contacts. Oxford, Oxford University Press, 1957, 372 p.

2. Striha V.I. Theoretical foundations of the operation of a metal–semiconductor contact. Kiev, Naukova Dumka, 1974, 264 p.

3. Roderic E.H. Metal-semiconductor Contacts. Moscow, Radio and Communications, 1982, 210 p.

4. Pikus G.E. Contact Phenomena. Semiconductors in Science and Technology. Moscow, Leningrad, Publishing House of the USSR AS, 1956, v.1, 148 p.

5. Vinogradov A.Ya., Grudinkin S.A., Besedina N.A. Koniakhin S.V., Rabchinskii M.K., Eidelman E.D., Golubev V.G. Structure and properties of thin graphite-like films produced by magnetron-assisted sputtering. Semiconductors, 2018, 52(7), P. 914–920.

6. Hvostov V.V., Streletskiy O.A., Yakunin V.V., et al. Properties of carbon films with high conductivity anisotropy. Vestn. Mosk. Univ. Ser. 3. Phys. Astron., 2012, 1, P. 78–84.

7. Kalinin Yu.E., Kashirin M.A., Makagonov V.A., et al. Properties of amorphous carbon thin films grown by ion beam sputtering. Technical Physics, 2017, 62, P. 1724–1730.

8. Berezin V.M., Shepovalov I.I., Lukashev V.S. Transparency factors and electrical resistance of graphite-like films on glass. Chelyabinsk Physical and Mathematical Journal, 2017, 2(4), P. 483–488.

9. Demidov A.A., Rybalka S.B. Modern and promising semiconductor materials for microelectronics in the next decade (2020-2030). Prikladnaya matematica & Fizika, 2021, 53(1), P. 53–72.

10. Schwierz F. Graphene transistors. Nature Nanotechnology, 2010, 5, P. 487–496.

11. Breusing M., Ropers C., Elsaesser T. Ultrafast Carrier Dynamics in Graphite. Phys.Rev.Lett., 2009, 102(8), P. 086809.

12. Gubin S.P. All-carbon nanoelectronics. Radioelectronics. Nanosystems. Information Technologies, 2011, 3(1), P. 47–54.