PROPERTIES OF LEAD SULFIDE FILMS DEPOSITED FROM A COORDINATION COMPOUND [Pb(N2H4CS)2(CH3COO)2]

  • Victoria А. Karnushina the competitor for science degree of Master Science in Chemistry of the Department of General and Inorganic Chemistry, Voronezh State University; ph.: +7(980) 3416041, e-mail: 79803416041@yandex.ru
  • Viktor N. Semenov Dr. Sci. (Chem.), Head of the Department of General and Inorganic Chemistry, Voronezh State University; ph.: +7(473) 2208610,e-mail: semenov@chem.vsu.ru
  • Anatoly N. Lukin Cand. Sci. (Phys.-Math.), Associate Professor of the Department of Solid State Physics and Nanostructures, Voronezh State University; ph.: +7(950) 7548707, e-mail: ckp_49@mail.ru
  • Nadezhda М. Ovechkina Assistant of the Department of Chemistry, Voronezh State Medical University. N.N. Burdenko; ph.: +7(473) 2531479, e-mail: nadezhda.ovechkina@rambler.ru
  • Leonid N. Nikitin Cand. Sci. (Eng.), Assistant Professor of the Department of Design and Production of Radio Equipment, Voronezh State Technical University; ph.: +7(473) 2437706, e-mail: l.n.nikitin@mail.ru
DOI: https://doi.org/10.17308/kcmf.2017.19/194
Keywords: thiourea, lead acetate, coordination compounds, complexation, transmission spectra, X-ray phase analysis, TEPS, electrical resistivity

Abstract

The position and the shape of intrinsic absorption edges was studied by optical spectroscopy. It allowed identifying the value of the band gap for thin lead sulfide films produced by spray pyrolysis of aqueous solutions of thiourea coordination compounds (TCS). The study of the optical properties of PbS was focsued on determining the values of the band gap for samples which were synthesized in various conditions. The transmission spectra for thin films were determined, which helped to determine the band gap for direct interband transitions by the intrinsic self-absorption edge. Graphical analysis of the intrinsic absorption edge allowed us to identify the type of optical transition and the energy of the intrinsic absorption edge for thin films of lead sulfide. By X-ray phase analysis the crystal structure of the films was determined. Using the hot probe method at room temperature, we measured the values of electric resistance, differential thermoelectric power, and the resistivity and conductivity of PbS films with different ratios of concentrations of the initial components. The results of X-ray phase analysis showed that films of lead sulfide with cubic structure are formed as a result of synthesis at all deposition temperatures between 300-4500С. The results of optical studies of PbS thin film structures indicate that lead sulfide is characterized by direct transitions with a band gap within 0.43 to 0.49 eV. The increase in concentration of thiourea in the initial solution leads to the decrease in the differential thermoelectric power and the increase in conductivity in PbS films.

ACKNOWLEDGEMENTS

The research results were obtained with equipment of Voronezh State University Centre for Collective Use of Scientific Equipment.

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References

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Published
2017-11-06
How to Cite
KarnushinaV. А., Semenov, V. N., Lukin, A. N., OvechkinaN. М., & Nikitin, L. N. (2017). PROPERTIES OF LEAD SULFIDE FILMS DEPOSITED FROM A COORDINATION COMPOUND [Pb(N2H4CS)2(CH3COO)2]. Condensed Matter and Interphases, 19(2), 215-221. https://doi.org/10.17308/kcmf.2017.19/194
Issue
Vol 19 No 2 (2017)
Section
Статьи
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