Synthesis, structural characterization and electrical conduction mechanism of the new organic–inorganic complex: ([(C3H7)4N]FeCl4)

Brahim, Kh. Ben; Gzaiel, M. Ben; Oueslati, A.; Hlel, F.; Gargouri, M.

doi:10.1016/j.materresbull.2019.110505

Cited by 27 publications

(10 citation statements)

References 45 publications

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“…The frequency response of the materials has further been analysed.in order to determine the dominant AC conduction mechanism, The increase of with decreasing temperature is consistent with the correlated barrier hopping (CBH) model in which the relaxation process is by hopping of charges between pair of localised states [23]. Similar conduction mechanism is reported for 8 mm in diameter and 1.1 mm in thickness of newly synthesized inorganic-organic tetrapropylammonium tetrachloferrate nanocomposite at temperature between 313K and 388 K over the frequency range from 10 3 Hz to 10 7 Hz [24].…”

Section: Resultssupporting

confidence: 78%

Impedance spectroscopic study on hybrid phthalocyanine/lead sulphide nanocomposite film

Khozaee

Chambrier

Sosa‐Vargas

et al. 2019

J. Porphyrins Phthalocyanines

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A unique organic/inorganic nanocomposite of non-aggregated lead sulphide (PbS) quantum dots (QDs) dispersed within a spun film of non-peripherally octakis(hexyl)-substituted metal-free phthalocyanine (C[Formula: see text]H[Formula: see text]Pc) has been prepared at room temperature by a simple and low-cost method. The frequency response of alternating current (AC) conduction in a 130 nm thick C[Formula: see text]H[Formula: see text]Pc /PbS film sandwiched between the indium-tin-oxide (ITO) and aluminum (Al) electrodes is found to obey the universal power-law. The cryogenic study of AC conduction reveals that the correlated barrier hopping (CBH) model closely fits to the experimental data at temperatures below 240 K. The parameters obtained by fitting the CBH model point out that the hopping process cannot take place directly between neighboring PbS QDs but involves the localized states within the matrix.

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Section: Resultssupporting

confidence: 78%

Impedance spectroscopic study on hybrid phthalocyanine/lead sulphide nanocomposite film

Khozaee

Chambrier

Sosa‐Vargas

et al. 2019

J. Porphyrins Phthalocyanines

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“…For both the compounds, the value of s ( T ) first remains constant, and then decreases with increasing temperature (Figure c). This kind of temperature behavior of s ( T ) reveals that the conduction mechanism is a correlated barrier hopping (CBH) type as reported in many other compounds. ,− The decreasing value of s ( T ) with increasing temperature means that the interaction among the mobile ions increases with increasing temperature.…”

Section: Resultssupporting

confidence: 65%

Role of Crystal Structure on the Ionic Conduction and Electrical Properties of Germanate Compounds A₂Cu₃Ge₄O₁₂ (A = Na, K)

Chikara

Bera

Kumar

et al. 2023

ACS Appl. Electron. Mater.

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Crystal structure and electrical properties of A 2Cu3Ge4O12 (where A = Na, K) have been investigated by neutron diffraction and electrical impedance spectroscopy (EIS). The real and imaginary parts of the impedance, dielectric constant, and electrical modulus have been studied as a function of frequency and temperature. The crystal structures of the compounds K2Cu3Ge4O12 (KCGO) and Na2Cu3Ge4O12 (NCGO) are made of perfect 2D and quasi-2D alkali metal ion layers, respectively. The dc conductivity occurs due to small polaron hopping for both compounds with single activation energy over the entire experimentally available temperature range. The values of activation energies are 0.90(3) and 1.22(6) eV for KCGO and NCGO, respectively, as determined from dc conductivity and relaxation time analysis. The frequency dependent ac conductivity curves for both compounds follow a universal Jonscher’s power law. Soft bond valence sum analysis of neutron diffraction data reveals that the conduction pathways are confined within a plane in KCGO, whereas they form a one-dimensional channel in NCGO. The bottlenecks for ionic conduction and the role of crystal structure on them are discussed. The scaling behavior of electrical modulus indicates that the relaxation process does not change with temperature; however, a sharp decrease in the time constant has been observed. The present comprehensive study facilitates the understanding of the role of crystal structure on the microscopic mechanism of ionic conduction in both battery materials, which would be useful in designing sodium and potassium based ionic conductors. Further, the constant value of activation energy over the kHz frequency range is suitable for potential applications of the studied materials in avalanche beacons and amateur and geophysical sensors.

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“…From the shape of these spectra, it can be understood the presence of a single semi-circular arc at each temperature, which confirms the grain contribution in this material. 23 Moreover, the shows that the radius of the corresponding semicircular arcs decreased inversely with temperature, which reveals that the a conductivity improvement and thus more dielectric loss. 24 The material has thus a semiconductor behavior.…”

Section: Resultsmentioning

confidence: 88%

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound

et al. 2022

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Synthesis, structural characterization and electrical conduction mechanism of the new organic–inorganic complex: ([(C3H7)4N]FeCl4)

Cited by 27 publications

References 45 publications

Impedance spectroscopic study on hybrid phthalocyanine/lead sulphide nanocomposite film

Impedance spectroscopic study on hybrid phthalocyanine/lead sulphide nanocomposite film

Role of Crystal Structure on the Ionic Conduction and Electrical Properties of Germanate Compounds A₂Cu₃Ge₄O₁₂ (A = Na, K)

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound

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Synthesis, structural characterization and electrical conduction mechanism of the new organic–inorganic complex: ([(C3H7)4N]FeCl4)

Cited by 27 publications

References 45 publications

Impedance spectroscopic study on hybrid phthalocyanine/lead sulphide nanocomposite film

Impedance spectroscopic study on hybrid phthalocyanine/lead sulphide nanocomposite film

Role of Crystal Structure on the Ionic Conduction and Electrical Properties of Germanate Compounds A2Cu3Ge4O12 (A = Na, K)

Investigation of optical and electrical properties of the semiconducting α-KZnPO4 compound

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Role of Crystal Structure on the Ionic Conduction and Electrical Properties of Germanate Compounds A₂Cu₃Ge₄O₁₂ (A = Na, K)

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound