A New Zn(II) Metal Hybrid Material of 5-Nitrobenzimidazolium Organic Cation (C7H6N3O2)2[ZnCl4]: Elaboration, Structure, Hirshfeld Surface, Spectroscopic, Molecular Docking Analysis, Electric and Dielectric Properties

Ayari, Chaima; Alotaibi, Abdullah A.; Baashen, Mohammed; Perveen, Fouzia; Al-Marri, Abdulhadi H.; Alotaibi, Khalid M.; Abdelbaky, Mohammed S. M.; García-Granda, Santiago; Othmani, Abdelhak; Nasr, C. Ben; Mrad, Mohamed Habib

doi:10.3390/ma15227973

Cited by 4 publications

(1 citation statement)

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“…Further electrical analyses were carried out via the complex modulus formalism which also reveals information about the relaxation mechanism. The real and imaginary part of the complex modulus M* are expressed as follow [67]:…”

Section: Modulus Analysismentioning

confidence: 99%

Antioxidant activity, Dielectric and Electrical Properties of N-benzyl-N'-(5-methyl-1H-pyrazol-3-yl) propanimidamide.

Louiz,

Labiadh,

Abderrahim

et al. 2023

Preprint

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This article mainly focuses on recent advances in the study of the interesting electronic and biological powers of the N-benzyl-N'-(5-methyl-1H-pyrazol-3-yl) propanimidamide. The selected amidine has been previously synthesized, characterized in a previous publication and we present in this research the study of the antioxidant application, electrical activity and dielectric studies of the cristal. In this context, the amidine and the corresponding imidate were compared with ascorbic acid as a reference and showed an interesting antioxidant power, especially in Ferrous ion chelating (FIC) activity and Hydroxyl Radical (OH.) Scavenging. We also studied electrical activity as a function of frequency, impedance and alternating conductivity. The obtained results showed that the compound can be used in order to complex and impedance spectroscopy showed that synthesized amidine is a good short-range proton conductor. Impedance measurements approve the input of the resistive grain frontier on the conduction mechanism. Then, it evidences the existence of many electrical relaxation phenomena in the studied sample. The dielectric constant is temperature dependent indicating that the crystal is a polar dielectric compound and the dipole orientation is governed by increasing temperature.

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Section: Modulus Analysismentioning

confidence: 99%

Antioxidant activity, Dielectric and Electrical Properties of N-benzyl-N'-(5-methyl-1H-pyrazol-3-yl) propanimidamide.

Louiz,

Labiadh,

Abderrahim

et al. 2023

Preprint

Self Cite

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New Hybrid Material’s Structure, Electric-Dielectric Properties, Spectroscopic Analysis, DNA Interactions, and Antibacterial Application of Bis-(5-nitrobenzimidzolium) Tetrachlorozincate Monohydrate

et al. 2023

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Characterization of a New Hybrid Compound (C₃H₈N₆)₂ZnCl₄·2Cl: X-ray Structure, Hirshfeld Surface, Vibrational, Thermal Stability, Dielectric Relaxation, and Electrical Conductivity

Zaghden,

Ben Attia,

Abdelbaky

et al. 2024

ACS Omega

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A novel organic−inorganic material (C 3 H 8 N 6 ) 2 ZnCl 4 •2Cl was synthesized via a slow evaporation approach and subjected to extensive characterization. Techniques involving X-ray diffraction, SEM/EDX, Hirshfeld surface examination, IR/Raman spectroscopy, thermal behavior (TG/DTG/SDTA and DSC), and electric and dielectric studies were applied. Examination of the crystal structure reveals that the synthesized material adopts a monoclinic system, particularly belonging to the P2 1 /c space group with unit cell parameters a = 11.7274(3) Å, b = 6.2155(2) Å, c = 25.7877(8) Å, β = 94.27(1)°, V = 1874.50(4) Å 3 , and Z = 4. Purity confirmation was established via powder X-ray diffraction analysis. Composition verification was conducted using semiquantitative EDXS analysis. The asymmetric unit comprises isolated tetrachlorozincate [ZnCl 4 ] 2− anions, two (C 3 H 8 N 6 ) 2+ organic cations, and two free chlorine atoms, forming a 0D anionic network. N−H•••Cl and N−H•••N hydrogen bonding combined to form a 2D hydrogen-bonded network, maintaining crystal stability. Hirshfeld surface analysis elucidated intermolecular interactions, supported by 2D fingerprint plots. IR and Raman spectra analysis corroborated compound characteristics at room temperature. Thermal analysis revealed two phase transitions at 343 and 358 K, consistent with dielectric studies. Impedance spectroscopy highlighted the compound's electrical properties, confirming thermal transitions. Conductivity studies exhibited an Arrhenius behavior. Frequency-dependent dielectric constant variations and modulus studies underscored grain and grain boundary effects, confirming the effective protonic conduction in the material.

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A New Zn(II) Metal Hybrid Material of 5-Nitrobenzimidazolium Organic Cation (C7H6N3O2)2[ZnCl4]: Elaboration, Structure, Hirshfeld Surface, Spectroscopic, Molecular Docking Analysis, Electric and Dielectric Properties

Cited by 4 publications

References 77 publications

Antioxidant activity, Dielectric and Electrical Properties of N-benzyl-N'-(5-methyl-1H-pyrazol-3-yl) propanimidamide.

Antioxidant activity, Dielectric and Electrical Properties of N-benzyl-N'-(5-methyl-1H-pyrazol-3-yl) propanimidamide.

New Hybrid Material’s Structure, Electric-Dielectric Properties, Spectroscopic Analysis, DNA Interactions, and Antibacterial Application of Bis-(5-nitrobenzimidzolium) Tetrachlorozincate Monohydrate

Characterization of a New Hybrid Compound (C₃H₈N₆)₂ZnCl₄·2Cl: X-ray Structure, Hirshfeld Surface, Vibrational, Thermal Stability, Dielectric Relaxation, and Electrical Conductivity

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A New Zn(II) Metal Hybrid Material of 5-Nitrobenzimidazolium Organic Cation (C7H6N3O2)2[ZnCl4]: Elaboration, Structure, Hirshfeld Surface, Spectroscopic, Molecular Docking Analysis, Electric and Dielectric Properties

Cited by 4 publications

References 77 publications

Antioxidant activity, Dielectric and Electrical Properties of N-benzyl-N'-(5-methyl-1H-pyrazol-3-yl) propanimidamide.

Antioxidant activity, Dielectric and Electrical Properties of N-benzyl-N'-(5-methyl-1H-pyrazol-3-yl) propanimidamide.

New Hybrid Material’s Structure, Electric-Dielectric Properties, Spectroscopic Analysis, DNA Interactions, and Antibacterial Application of Bis-(5-nitrobenzimidzolium) Tetrachlorozincate Monohydrate

Characterization of a New Hybrid Compound (C3H8N6)2ZnCl4·2Cl: X-ray Structure, Hirshfeld Surface, Vibrational, Thermal Stability, Dielectric Relaxation, and Electrical Conductivity

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Characterization of a New Hybrid Compound (C₃H₈N₆)₂ZnCl₄·2Cl: X-ray Structure, Hirshfeld Surface, Vibrational, Thermal Stability, Dielectric Relaxation, and Electrical Conductivity