Impedance spectroscopy and conductivity studies of KCl-doped solid electrolyte

(CuCl) 4−2 x − (KCl) x –CdCl 2 , x  = 0.0–0.4 solid electrolytes were grown via solid-state reaction procedure by suitable heat treatment. An AC impedance spectroscopy suggested that the ionic conductivity mainly arisen from grain effect. A DC electrical conductivity of 3.94 × 10 −5  Scm −1 was meas...

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Bibliographic Details
Published in:Journal of theoretical and applied physics 2018-06, Vol.12 (2), p.141-146
Main Authors: Wani, Suhail Iqbal, Rafiuddin, Rafiuddin
Format: Article
Language:English
Subjects:
Applied and Technical Physics
Atomic
Condensed Matter Physics
Electrical resistivity
Electrolytes
Heat treatment
Impedance spectroscopy
Ion currents
Ions
Lattice vibration
Medical and Radiation Physics
Molecular
Molten salt electrolytes
Nanoscale Science and Technology
Optical and Plasma Physics
Physics
Physics and Astronomy
Solid electrolytes
Spectrum analysis
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Summary:(CuCl) 4−2 x − (KCl) x –CdCl 2 , x  = 0.0–0.4 solid electrolytes were grown via solid-state reaction procedure by suitable heat treatment. An AC impedance spectroscopy suggested that the ionic conductivity mainly arisen from grain effect. A DC electrical conductivity of 3.94 × 10 −5  Scm −1 was measured for the x  = 0.3 composition at 320 °C. This also shows lowest activation energy in the temperature range of 293–593 K. This has been explained by that fact that at high temperatures thermal disturbances through lattice vibrations take place. In such a high-temperature region, Cu + readily jumps and migrates at short range, but the number of mutual collisions also increases resulting in a decrease of the Cu + mobility. The present study reveals that the change in conductivity value depends on concentration of doped ingredient as well as on various parameters in the system. Therefore, these solid electrolytes will be suitable for the development of different electrochemical applications.
ISSN:2251-7227
2251-7235
DOI:10.1007/s40094-018-0294-z