Features of the Formation and Growth Films Based of PbTe on Mica

Authors

  • I.S. Bylina Vasyl Stefanyk Precarpathian National University

DOI:

https://doi.org/10.15330/pcss.16.4.685-691

Keywords:

lead telluride, nanostructures, growth kinetics, vapor-phase condensation, form factor

Abstract

The results of comprehensive research vapor-phase condensate on based of PbTe, deposited on mica substrates method of the open evaporation in a vacuum. The analysis of AFM-images constructed histogram distribution of nanostructures on the surface of the film at normal (h) and lateral (D) size. The dependence of the average sizes of nanocrystals in normal (hm) and lateral (Dm) to the substrate surface direction of deposition time τ. Confirmed root dependence medium size of the duration deposition. The analysed feature changes of the form factor of objects on the surface from technological parameters.

References

N. Kobayasi. Vvedenie v nanotehnologiyu. (Per. s yaponosk.- 2-e izd.-M.:BINOM. Laboratoriya znaniy, 2008).

S. P. Zimin, E. S. Gorlachev, Nanostrukturirovanyie halkogenidyi svintsa (YarGU, Yaroslavl, 2011).

D. M. Freik, M. A. Galuschak, L. I. Mezhilovskaya, Fizika i tehnologiya poluprovodnikovyih plenok (Vischa shkola, Lvіv, 1988).

L. P. Bulat, E. K. Iordanishvili, A. A. Pustovalov, M. I. Fedorov. Termoelektrichestvo, №4, 7 (2009).

Z. M. Dashevskiy, Termoelektrichestvo v halkogenidah svintsa. Pod red. D. Hohlova (Gordon & Brich, 2002).

V. M. Shperun, D. M. Freyik, R. I. Zapukhlyak, Termoelektryka telurydu svyntsyu ta yoho analohiv (Play, Ivano-Frankivs'k, 2000).

G. P. Agrawal, N. K. Dutta, Semiconductor Lasers. (Van Nostrand Reinhold, New York, 1993).

G. Springholz, V. Holy, M. Pinczolits, G. Bauer, Science, 282, 734 (1998).

N. H. Abrikosov, L. E Shelimova, Poluprovodnikovyie materialyi na osnove soedineniy A4B6 (Nauka, Moskva, 1975).

M. Folmer. Kinetika obrazovaniya novoy fazi (Per. s nem./ Pod red. Gorbunovoy K. M. i Chernova A. A., Moskva, Nauka, 1986).

V. G. Dubrovskiy, G. E. Tsyirlin, FTP 39(11), 1312 (2005).

M. A. Kazanskiy, M. V. Nazarenko, V. G. Dubrovskiy, Pisma v ZhTF, 37(6), 78 (2011).

S. A. Kukushkin, A. V. Osipov, UFN 168(10), 1083 (1998).

O.V. Koropov, Zh. nano-ta elektron. Fiz., 4(3), 03013-1 (2012).

R. D. Venhrenovych, B. V. Ivans'kyy, A. V. Moskalyuk, Physics and Chemistry of Solid State 10(1), 19 (2009).

D. M. Freyik, I. S. Bylina, L. Y. Mezhylovs'ka, R. V. Umantsiv, V. V. Mykhaylyuk, FIP 12(4), 522 (2014).

Ya. P. Saliy, D. M. Freyik, I. S. Bylina, M. O. Halushchak, Journ. of nano and electr. phys. 7(2), 02020-1 (2015).

S. V. Volkov, Ye. P. Koval'chuk, V. M. Ohenko, O. V. Reshetnyak. Nanokhimiya, nanosystemy, nanomaterialy. (Kyyiv: Naukova dumka, 2008).

A. V. Osipov, Thin Solid Films, 227(2), 111 (1993).

W. Ostwald, Js. Physics Chemistry 34, 495 (1900).

I. M. Lifshits, V.V. Slyozov, ZhETF 35(2), 479 (1958).

C. Wagner. Zs.Electrochem. B.65, M.7/8, 581 (1961).

Downloads

Published

2015-12-15

How to Cite

Bylina , I. (2015). Features of the Formation and Growth Films Based of PbTe on Mica. Physics and Chemistry of Solid State, 16(4), 685–691. https://doi.org/10.15330/pcss.16.4.685-691

Issue

Vol. 16 No. 4 (2015)

Section

Scientific articles
Crossref
Scopus
Google Scholar
Europe PMC