Features of conductivity mechanisms in heavily doped compensated V 1– x  Ti  x  FeSb Semiconductor

V. A. Romaka; P. Rogl; V. V. Romaka; D. Kaczorowski; Yu. V. Stadnyk; V. Ya. Krayovskyy; A. M. Horyn

doi:10.1134/S1063782616070204

Features of conductivity mechanisms in heavily doped compensated V_1–xTi_xFeSb Semiconductor

Authors: Romaka V.A.¹^,2, Rogl P.³, Romaka V.V.², Kaczorowski D.⁴, Stadnyk Y.V.⁵, Krayovskyy V.Y.², Horyn A.M.⁵
Affiliations:
1. Pidstrygach Institute for Applied Problems of Mechanics and Mathematics
2. National University Lvivska Politekhnika
3. Institut für Physikalische Chemie
4. Institute of Low Temperature and Structure Research
5. Ivan Franko National University of Lviv
Issue: Vol 50, No 7 (2016)
Pages: 860-868
Section: Electronic Properties of Semiconductors
URL: https://journals.rcsi.science/1063-7826/article/view/197354
DOI: https://doi.org/10.1134/S1063782616070204
ID: 197354

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Abstract

The crystal and electronic structure and also the energy and kinetic properties of n-VFeSb semiconductor heavily doped with the Ti acceptor impurity are investigated in the temperature and Ti concentration ranges of T = 4.2–400 K and N_A^Ti ≈ 9.5 × 10¹⁹–3.6 × 10²¹ cm^–3 (x = 0.005–0.20), respectively. The complex mechanism of the generation of acceptor and donor structural defects is established. It is demonstrated that the presence of vacancies at Sb atomic sites in n-VFeSb gives rise to donor structural defects (“a priori doping”). Substitution of the Ti dopant for V in VFeSb leads simultaneously to the generation of acceptortype structural defects, a decrease in the number of donor defects, and their removal in the concentration range of 0 ≤ x ≤ 0.03 via the occupation of vacancies by Sb atoms, and the generation of donor defects due to the occurrence of vacancies and an increase in their number. The result obtained underlies the technique for fabricating new n-VFeSb-based thermoelectric materials. The results are discussed in the context of the Shklovsky–Efros model for a heavily doped compensated semiconductor.

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Features of conductivity mechanisms in heavily doped compensated V1–xTixFeSb Semiconductor

Full Text

Abstract

About the authors

V. A. Romaka

P. Rogl

V. V. Romaka

D. Kaczorowski

Yu. V. Stadnyk

V. Ya. Krayovskyy

A. M. Horyn

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Features of conductivity mechanisms in heavily doped compensated V_1–xTi_xFeSb Semiconductor