Фізика і хімія твердого тіла (Apr 2019)

Investigation of structural, electrokinetic and energy state properties of the semiconductive Zr1-xVxNiSn solid solution

  • Vladimir Romaka,
  • Lyubov Romaka,
  • Yuriy Stadnyk,
  • Andriy Horyn,
  • Vladimir Krayovskyy,
  • Ivanna Romaniv,
  • Petro Garanuyk

DOI
https://doi.org/10.15330/pcss.20.1.39
Journal volume & issue
Vol. 20, no. 1
pp. 33 – 39

Abstract

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Structural, electrokinetic and energy state characteristics of the Zr1-xVxNiSn semiconductive solid solution (х=0–0.10) were investigated in the temperature interval 80–400 К. It was shown that doping of the ZrNiSn compound by V atoms (rV=0.134 nm) due to substitution of Zr (rZr=0.160 nm) results in increase of lattice parameter а(х) of Zr1-xVxNiSn indicating unforecast structural change. Based on analysis of the motion rate of the Fermi level ΔεF/Δх for Zr1-xVxNiSn in direction of the conduction band it was concluded about simultaneous generation of the structural defects of the donor and acceptor nature (donor-acceptor pairs) by unknown mechanism and creation of the corresponding energy levels in the band gap of the semiconductor.

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