1. Electrical properties, phase transitions and conduction mechanisms of the [(C2H5)NH3]2CdCl4 compound
- Author
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S. Saidi, Karim Karoui, A. Ben Rhaiem, C. Ben Mohamed, and Kamel Guidara
- Subjects
Phase transition ,Materials science ,Condensed matter physics ,Binding energy ,Fermi level ,Analytical chemistry ,Condensed Matter Physics ,Polaron ,Thermal conduction ,Electronic, Optical and Magnetic Materials ,symbols.namesake ,Phase (matter) ,symbols ,Orthorhombic crystal system ,Dielectric loss ,Electrical and Electronic Engineering - Abstract
The [(C 2 H 5 )NH 3 ] 2 CdCl 4 hybrid material was prepared and its calorimetric study and electric properties were investigated at low temperature. The X-ray powder diffractogram has shown that the compound is crystallized in the orthorhombic system with Abma space group, and the refined unit cell parameters are a =7.546 A, b =7.443 A, and c =21.831 A. The calorimetric study has revealed two endothermic peaks at 216 K and 357 K, which are confirmed by the variation of f p and σ dc as a function of temperature. The equivalent circuit based on the Z-View-software was proposed and the conduction mechanisms were determined. The obtained results have been discussed in terms of the correlated barrier hopping model (CBH) in phase I (low temperature (OLT)), non-overlapping small polaron tunneling model (NSPT) in phase II (room temperature (ORT)) and the overlapping large polaron tunneling model in phase III (high temperature (OHT)). The density of localized states N F ( E ) at the Fermi level and the binding energy W m were calculated. The variation of the dielectric loss log( e ʺ) with log( ω ) was found to follow the empirical law, e ″= B ω m ( T ) .
- Published
- 2014
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