High Temperature Electrical Conductivity in Cu-Doped ZnS

## Abstract The electrical parameters of Zn‐doped GaAs liquid phase epitaxial layers are determined in the temperature range from 77 to 300 K by Hall effect and resistivity measurements. An analysis of the experimental data yields an ionization energy of 30.4 meV for the Zn acceptor in GaAs in the

Impedance spectra of Co-doped NASICON polycrystalline samples (x = 2.0) were measured in the frequency range 0.5 MHz-1.2 GHz and analyzed in terms of the conductivity dispersion. The dispersion of bulk electrical conductivity obeys the power law frequency dependence s(w) = s 0 + Kw n . It is observe

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Polyaniline (PAn) was synthesized chemically and doped with various dopants, such as HCl, HCOOH, and methylene blue S), by an I 2 (C 16 H 18 ClN 3 immersion method. The structure of these samples was investigated by infrared (IR) spectroscopy and wide-angle X-ray di †raction (WAXD) analysis. Remarka

A series of PrBa 2 Cu 3± ±x Zn x O 7± ±y samples with 0 x 1.0 has been prepared. X-ray powder diffraction results show the presence of a single-phase orthorhombic structure for all the studied samples. The electrical resistivity of PrBa 2 Cu 3± ±x Zn x O 7± ±y samples is found to increase with incre