L. N. Maskaeva, V. F. Markov, V. M. Bakanov, Kh. N. Mukhametzyanov, “Photoelectric characteristics of nanostructured hydrochemically deposited films of the Pb$_{0.975}$Sn$_{0.025}$Se substitutional solid solution”, Fizika Tverdogo Tela, 2012, Volume 54, Issue 4,Pages 679

This article is cited in 2 papers

Semiconductors

Photoelectric characteristics of nanostructured hydrochemically deposited films of the Pb$_{0.975}$Sn$_{0.025}$Se substitutional solid solution

L. N. Maskaeva^a, V. F. Markov^b, V. M. Bakanov^b, Kh. N. Mukhametzyanov^b

^a Ural Institute of the State Fire Service
^b Ural Federal University named after the First President of Russia B. N. Yeltsin, Ekaterinburg

Abstract: The photoelectric characteristics of Pb$_{0.975}$Sn$_{0.025}$Se solid solution films prepared by the hydrochemical codeposition of PbSe and SnSe with the subsequent heat treatment in air at 573–700 K have been investigated. The thermal and optical band gaps, the temperature coefficient of the optical band gap, the dark resistance, the volt-watt sensitivity, and the range of spectral sensitivity have been determined in the temperature range of 220–300 K. It has been found that, after heat treatment below 573 K, the films of the Pb$_{0.975}$Sn$_{0.025}$Se solid solutions possess metallic conductivity, while being heat treated at elevated temperatures, they become semiconductors with $p$-type conductivity. The composition of the solid solution is independent of the heat treatment temperature; it is formed during deposition.

Received: 09.08.2011
Accepted: 10.10.2011