Dependence of Electrical Properties on Frequency and Temperature for Novel Cyclopentenone Derivatives

Salama, A. H.

doi:10.37256/nat.11202077.13-25

NAT

2020

DOI: 10.37256/nat.11202077.13-25

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Dependence of Electrical Properties on Frequency and Temperature for Novel Cyclopentenone Derivatives

A. H. Salama

Abstract: Electrical properties of some new cyclopentenone derivatives have been studied. The structures of prepared samples were characterized by (UV), (XRD) and (SEM). The dependence of electrical properties such as σdc , σac , ɛ' and ɛ'' on frequency and temperature were studied at frequency range from 50 Hz to 5 MHz and the temperature range from 25oC to 140oC. It was found that, ɛ' decreased with increasing frequency while it increases with increasing temperatures within the used ranges. Moreover, dielectric consta… Show more

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Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb₂O₆

Maruthi¹,

Deshpande²,

Deshmukh³

et al. 2022

J. Phys. D: Appl. Phys.

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A comprehensive study on the mechanism of ac-charge transport and dielectric relaxation in the MnNb2O6 Columbite system has been reported. Thermally driven, Arrhenius-like behavior of the ac-conductivity (σ(ω,T)) is predominant at temperatures above 300 K in the frequency range 50 Hz to 5 MHz with activation energies (Eac) lying between 0.45 and 0.38 eV. Besides, a quadratically decreasing trend in the activation energy is evident as given by: Eac(f) = A + B f + C f 2 with the constants A (0.413 eV), B (0.023 eV/Hz) and C (-0.004 eV/Hz2). The measured σ(ω,T) data is analyzed using the Double power law to explain the dispersive behavior of electrical conductivity. These studies also provide evidence for the correlated-barrier hopping (CBH) conduction mechanism of charge carriers for temperatures in the range 173 K to 473 K. Further, the temperature dependence of frequency exponent, s(T) displays two distinct regions both of which are associated with the CBH mechanism. However, the second region is more dominated by thermally activated Arrhenius-like behavior. The dynamical response of complex electric modulus spectra (M*(ω,T)) and the corresponding analysis using Kohlrausch-Williams-Watts method reveals the presence of a non-Debye type relaxation process with decay function exponent β lying between 0.794 and 0.840. This inference of the non-Debye type relaxation process is further supported by depressed semicircles in Nyquist plots and the higher magnitude of FWHM (~ 1.44 decades) of the normalized master cusp (M′′/M′′max vs. ω/ωmax) compared to the FWHM (= 1.14 decades) for ideal Debye behaviour. Both short-range and long-range conductivity regions are ubiquitous in M*(ω,T) with a pronounced distribution of relaxation times (τ ~ 935.8 - 0.36 μs) with temperature. This study further leads to the estimation of activation energy of charge carriers, Em = 0.44 eV which is in consonance with Eac(f,T).

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Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb₂O₆

Maruthi¹,

Deshpande²,

Deshmukh³

et al. 2022

J. Phys. D: Appl. Phys.

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show abstract

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Dependence of Electrical Properties on Frequency and Temperature for Novel Cyclopentenone Derivatives

Cited by 1 publication

References 26 publications

Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb₂O₆

Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb₂O₆

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Dependence of Electrical Properties on Frequency and Temperature for Novel Cyclopentenone Derivatives

Cited by 1 publication

References 26 publications

Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb2O6

Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb2O6

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Product

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Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb₂O₆

Correlated barrier charge hopping and non-Debye relaxation in columbite MnNb₂O₆