Raman scattering and alternative current conduction mechanism of the different phase transitions in [(CH3)3NH]CoCl3·2H2O

Kchaou, Hédi; Karoui, Karim; Bulou, A.; Tabellout, M.; Rhaiem, A. Ben

doi:10.1016/j.jallcom.2017.06.237

Cited by 6 publications

(3 citation statements)

References 47 publications

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“…The AC conductivity is given by the universal Jonscher power law [ 28–30 ]

σ_{ac} ((), ω) = σ_{dc} + {Aω}^{s}

where ω is the angular frequency, A denotes a constant depending on temperature, and s is a constant that measures the degree of interaction between charge carriers and their environment and depends on frequency and temperature.…”

Section: Resultsmentioning

confidence: 99%

Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH₃)₂NH₂]₂ZnBr₄

Mahfoudh

Karoui

Jomni

et al. 2020

Applied Organom Chemis

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An organic–inorganic hybrid compound [(CH3)2NH2]2ZnBr4 has been prepared at room temperature under the slow evaporation method. Its structure was solved at 150 K using the single‐crystal X‐ray diffraction method. [(CH3)2NH2]2ZnBr4 crystallizes in the monoclinic system – a = 8.5512 (12) Å, b = 11.825 (2) Å, c = 13.499 (2) Å, β = 90.358 (6)°, V = 1365 (4) Å3, and Z = 4, space group P21/n. In the structure of [(CH3)2NH2]2ZnBr4, tetrabromozincate anions are connected to organic cations through N–H⋯Br hydrogen bonds. Differential scanning calorimetry (DSC) measurements indicate that [(CH3)2NH2]2ZnBr4 undergoes four phase transitions at T1 = 281 K, T2 = 340 K, T3 = 377 K, and T4 = 408 K. Meanwhile, several studies including DSC measurements and variable‐temperature structural analyses were performed to reveal the structural phase transition at T = 281 K in [(CH3)2NH2]2ZnBr4. Conductivity and dielectric study as a function of temperature (378 < T [K] < 423) and frequency (10−1 < f [Hz] < 106) were investigated. Analysis of equivalent circuit, alternating current conductivity, and dielectric studies confirmed the phase transition at T4. Conduction takes place by correlated barrier hopping in each phase.

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“…The AC conductivity is given by the universal Jonscher power law [ 28–30 ]

σ_{ac} ((), ω) = σ_{dc} + {Aω}^{s}

Section: Resultsmentioning

confidence: 99%

Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH₃)₂NH₂]₂ZnBr₄

Mahfoudh

Karoui

Jomni

et al. 2020

Applied Organom Chemis

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“…The development of new functional materials in particular the hybrid materials has received considerable attention due to their potential application relative to the properties of the as possible interactions connecting of the organic and inorganic species that show weak interactions between the two phases, such as Van Der-Walls, hydrogen bonding or weak electrostatic interactions [5]. In addition, the hybrid compounds represented a stimulus materials science research owing to their myriad characteristics with potential phase transition materials and lightness [6] [7] [8]. Despite the difficulty in predicting the magnetic properties of hybrid materials, recent years have witnessed a renewed interest in the design of magnetic layered organic-inorganic components [9].…”

Section: Introductionmentioning

confidence: 99%

Effect of Changing Anion on the Crystalline Structure, Crystal Structure, Hirschfield Surface, IR and NMR Spectroscopy of Organic Salts and Hybrid Compounds: C6H4(NH3)2Cl2 (I), β-[C6H10N<sub&g

Hannachi¹,

Elwej²,

Roisnel³

et al. 2023

OJIC

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Two organic-inorganic hybrid materials, C 6 H 4 (NH 3 ) 2 •Cl 2 (I) and β-[C 6 H 10 N 2 ] 2 ZnCl 4 (II), have been synthesized by hydrothermal method. These two materials are one of the hybrid materials have emerged as one of the most brilliant components classes. These extraordinary compounds synergistically combine the desired physical properties of both organic and inorganic components into a single compound offering the possibility to achieve great improvement over time in terms of science across various sectors. Their structures were determined by XRD pattern investigations and single crystal X-ray diffraction. These two compounds are crystallized in the monoclinic system; C2/c space group. In the both structures, the anionic-cationic entities are interconnected by hydrogen bonding contacts and p-p Interaction forming threedimensional networks. Intermolecular interactions were investigated by Hirshfeld surfaces and the contacts of the four different chloride atoms in (II) were compared. The vibrational absorption bands were identified by infrared spectroscopy. These compounds were also investigated by solid state 13 C NMR spectroscopy.

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“…Organic-inorganic metal halides have captivated vigorous concern in the last decades due to both technological features as well as potential applications in several physical properties [ 1 -4]. It was due to the possible interactions connecting of the organic and inorganic species that show weak interactions between the two phases, such as Van Der-Walls, hydrogen bonding or weak electrostatic interactions [5][6][7] characteristics with potential phase transition materials and lightness [ [8][9][10]. This materials stand for a novel designing of managing the assembling of an extensive variety of structurally well-de ned nanoobjects arranged in a hierarchical order is organized with regard to their structures and functions [13][14].…”

Section: Introductionmentioning

confidence: 99%

Characterization of New Inorganic- Organic Hybrid Compounds: (C6H10N2).Cl2 (I), [C6H10N2]2ZnCl4 (II): Crystal Structure, Hirschfield Surface, IR and NMR spectroscopy Analysis.

Hannachi

Hlel

2021

Preprint

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Two new organic-inorganic hybrid materials, (C6H10N2).Cl2 (I) and [C6H10N2]2ZnCl4 (II), have been synthesized by hydrothermal method and characterized by single-crystal X-ray diffraction and XRD pattern investigations. These two compounds are crystallized in the monoclinic system; C2/c space group. In the both structures, the anionic-cationic entities are interconnected by hydrogen bonding contacts and p-p Interaction forming three-dimensional networks. Intermolecular interactions were investigated by Hirshfeld surfaces and the contacts of the four different chloride atoms in (II) were compared. The vibrational absorption bands were identified by infrared spectroscopy. These compounds were also investigated by solid state 13C NMR spectroscopy.

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Raman scattering and alternative current conduction mechanism of the different phase transitions in [(CH3)3NH]CoCl3·2H2O

Cited by 6 publications

References 47 publications

Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH₃)₂NH₂]₂ZnBr₄

Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH₃)₂NH₂]₂ZnBr₄

Effect of Changing Anion on the Crystalline Structure, Crystal Structure, Hirschfield Surface, IR and NMR Spectroscopy of Organic Salts and Hybrid Compounds: C<sub>6</sub>H<sub>4</sub>(NH<sub>3</sub>)<sub>2</sub>Cl<sub>2</sub> (I), <i>β</i>-[C<sub>6</sub>H<sub>10</sub>N<sub&g

Characterization of New Inorganic- Organic Hybrid Compounds: (C6H10N2).Cl2 (I), [C6H10N2]2ZnCl4 (II): Crystal Structure, Hirschfield Surface, IR and NMR spectroscopy Analysis.

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Raman scattering and alternative current conduction mechanism of the different phase transitions in [(CH3)3NH]CoCl3·2H2O

Cited by 6 publications

References 47 publications

Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH3)2NH2]2ZnBr4

Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH3)2NH2]2ZnBr4

Characterization of New Inorganic- Organic Hybrid Compounds: (C6H10N2).Cl2 (I), [C6H10N2]2ZnCl4 (II): Crystal Structure, Hirschfield Surface, IR and NMR spectroscopy Analysis.

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Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH₃)₂NH₂]₂ZnBr₄

Structural phase transition, thermal analysis, and spectroscopic studies in an organic–inorganic hybrid crystal: [(CH₃)₂NH₂]₂ZnBr₄