Journal of Advanced Dielectrics, Volume. 12, Issue 3, 2150032(2022)

Dielectric relaxation and conduction mechanism of NaMgPO4 compound

L. Miladi*... A. Oueslati*, M. Ben Gzaiel* and M. Gargouri* |Show fewer author(s)
Author Affiliations
  • Laboratory of Spectroscopic Characterization and Optical Materials, Faculty of Sciences, University of Sfax B.P. 1171, 3000 Sfax, Tunisia
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    References(60)

    [1] J. H. Joshia, K. V. Vadhel, G. M. Joshic, M. J. Joshib, H. O. Jethvab, K. D. Parikhd. The complex impedance, dielectric relaxation, complex modulus and photoluminescence studies of pure and L-Methionine doped ammonium dihydrogen phosphate. J. Chin. Phys., 65, 268(2020).

    [2] Fang-Fang. Chen, H. F. Li, X. R. Jia, Z. Y. Wang, Y. Y. Qin, X. Liang, W. Q. Chen, T. Qi. Ao. A quantitative prediction model for the phosphate adsorption capacity of carbon materials based on pore size distribution. J. Electrochim. Acta, 331, 135377(2020).

    [3] S. Ryu, J. E. Wang, J. H. Kim, R. Ruffo, Y. H. Jung, D. K. Kim. A study on cobalt substitution in sodium manganese mixed-anion phosphates as positive electrode materials for Na-ion batteries. J. Power Sources, 444, 227274(2019).

    [4] M. Srout, M. El Kazzi, H. Ben Youcef, K. M. Fromm, I. Saadoune. Improvement of the electrochemical performance by partial chemical substitution into the lithium site of titanium phosphate-based electrode materials for lithium-ion batteries: LiNi0.25Ti1.5 Fe0.5(PO4)3. J. Power Sources, 461, 228114(2020).

    [5] Y. Zhang, J. A. Alarco, J. Y. Nerkar, A. S. Best, G. A. Snook, P. C. Talbot. Nanoscale characteristics of practical LiFePO4 materials - Effects on electrical, magnetic and electrochemical properties. J. Mater. Charact., 162, 110171(2020).

    [6] O. Noureddine, S. Gatfaoui, Silvia. A. Brandan, A. Sagaama, H. Marouani, N. Issaoui. Quantum chemical calculations, spectroscopic properties and molecular docking studies of a novel piperazine derivative. J. Mol. Struct., 1207, 127762(2020).

    [7] M. U. Kartin, K. M. S. G. Etheredge, G. L. Schimeka, Sh.-J. Hwu. Synthesis, structure, and magnetic properties of two quasi-low-dimensional antiferromagnets, NaMnAsO4 and β-NaCuPO4. J. Alloys Compd., 338, 80(2002).

    [8] A. Sun, F. R. Beck, D. Haynes, Jr. J. A. Poston, S. R. Narayanan, P. N. Kumta, A. Manivannan. Synthesis, characterization, and electrochemical studies of chemically synthesized NaFePO4. J. Mat. Sci. Eng. B, 177, 1729(2012).

    [9] M. Amer, P. Boutinaud. The doping sites in Eu2+-doped AIBIIPO4 phosphors and their consequence on the photoluminescence excitation spectra. J. Solid State Chem., 258, 124(2018).

    [10] P. F. Henry, E. M. Hughes, M. T. Weller. Synthesis and structural characterisation of CsCoPO4-ABW. J. Chem. Soc. Dalton Trans. 4, 555(2000).

    [11] L. Guan, Ch. Liu, X. Li, G. Jia, Q. Guo, Z. Yang, G. Fu. Synthesis and optical properties of KCaPO4:Eu2+ phosphor. J. Mat. Res. Bull., 46, 1496(2011).

    [12] I. V. Korchemkin, V. I. Pet’kov, A. V. Markin, N. N. Smirnova, A. M. Kovalskii. Thermodynamic properties of caesium–cobalt phosphate CsCoPO4. J. Chem. Thermodyn., 96, 34(2016).

    [13] V. I. Pet’kov, I. V. Korchemkin, E. A. Asabina, A. R. Zaripov, V. S. Kurazhkovskaya, E. Yu. Borovikova, S. Yu. Stefanovich. Russ. J. Inorg. Chem., 57, 1214(2012).

    [14] G. Nénert, Jr. J. Bettis, R. Kremer, H. Ben Yahia, C. S. Ritter, E. Gaudin, O. Isnard, M.-H. Whangbo. Magnetic properties of the RbMnPO4 Zeolite-ABW-Type Material: A frustrated Zigzag spin chain. J. Inorg. Chem., 52, 9627(2013).

    [15] T. Dhanesh, A. Pulanchiyodan, T. S. Mailadil. Casting and characterization of LiMgPO4 glass free LTCC tape for microwave applications. J. Eur. Ceram. Soc., 33, 87(2013).

    [16] F. Zhou, K. Kang, T. Maxisch, G. Ceder, D. Morgan. The electronic structure and band gap of LiFePO4 and LiMnPO4. J. Solid State Commun., 132, 181(2004).

    [17] M. S. Whittingham, Y. Song, S. Lutta, P. Y. Zavalij, N. A. Chernova. Some transition metal (oxy)phosphates and vanadium oxides. J. Mater. Chem., 15, 3362(2005).

    [18] M. Luján, F. Kubel, H. Schmid. Some transition metal (oxy)phosphates and vanadium oxides. J. Nat. Sci. B, 50, 1210(1995).

    [19] R. Hammond, J. Barbier, C. Gallardo. Crystal structures and crystal chemistry of Ag XPO4 (X=Be, Zn). J. Solid. State Chem., 141, 177(1998).

    [20] L. Elammari, M. El Koumiri, I. Zschokke-Gränacher, B. Elouadi. Elaboration and non linear properties of ortho-phosphate solid solutions AiBII 1-xMII xPO4 (AI = monovalent cation, BII & MII = divalent cations). Ferroelectrics, 158, 19(1994).

    [21] V. Koleva, T. Boyadzhieva, E. Zhecheva, D. Nihtianova, S. Simova, G. Tyuliev, R. Stoyanova. Precursor-based methods for low-temperature synthesis of defectless NaMnPO4 with an olivine- and maricite-type structure. J. Cryst. Eng. Commun., 15, 9080(2013).

    [22] M. D. Johannes, K. Hoang, J. L. Allen, K. Gaskell. Hole polaron formation and migration in olivine phosphate materials. J. Phys. Rev. B, 85, 115106(2012).

    [23] K. T. Lee, T. N. Ramesh, F. Nan, G. Botton, L. F. Nazar. Topochemical synthesis of sodium metal phosphate olivines for sodium-ion batteries. J. Chem. Mater., 23, 3593(2011).

    [24] B. Louati, K. Guidara. Dielectric relaxation and ionic conductivity studies of LiCaPO4. Ionics, 17, 633(2011).

    [25] J. Alkemper, H. Fuess. The crystal structures of NaMgPO4, Na2CaMg(PO4)2 and Na18Ca13Mg5(PO4)+: New examples for glaserite related. J. Non-crystalline Solids, 213, 282(1998).

    [26] H. Bih, L. Bih, B. Manoun, M. Azdouz, S. Benmokhtar, P. Lazor. Raman spectroscopic study of the phase transitions sequence in Li3Fe2(PO4)3 and Na3Fe2(PO4)3 at high temperature. J. Mol. Struct., 936, 147(2009).

    [27] M. E. Poloznikova, V. V. Fomichev. The vibrational spectra and characteristic features of the orthophosphates of Group I-III elements. J. Russ. Chem. Rev., 63, 399(1994).

    [28] I. L. Botto, M. Vassallo. The vibrational spectrum of the NaZnPO4 ferroelectric phase. J. Mater. Sci. Lett., 8, 1336(1989).

    [29] Ch. M. Burba, R. Frech. Vibrational spectroscopic investigation of structurally-related LiFePO4, NaFePO4, and FePO4 compounds. J. Spectrochim. Acta A., 65, 44(2006).

    [30] A. Ajmi, M. Chemingui, A. Mahmoud, F. Boschini, A. Ben Rhaiem. Structural, vibrational spectroscopic, and electrical conduction mechanisms of α-NaCoPO4 compound. J. Ionics, 25, 1091(2018).

    [31] A. Ait Salah, P. Jozwiak, K. Zaghib, J. Garbarczyk, F. Gendron, A. Maugerd, C. M. Julien. FTIR features of lithium-iron phosphates as electrode materials for rechargeable lithium batteries. J. Spectrochim. Acta A, 65, 1007(2006).

    [32] M. Rokita, M. Handke, W. Mozgawa. The AIPO4 polymorphs structure in the light of Raman and IR spectroscopy studies. J. Mol. Struct., 555, 351(2000).

    [33] V. I. Fomin, V. P. Gnezdilov, V. S. Kurnosov, A. V. Peschanskii, A. V. Yeremenko, H. Schmid, J.-P. Rivera, S. Gentil. Raman scattering in a LiNiPO4 single crystal. J. Low. Temp. Phys., 28, 203(2002).

    [34] O. García-Moreno, M. Alvarez-Vega, F. García-Alvarado, J. García-Jaca, J. M. Gallardo-Amores, M. L. Sanjuán, U. Amador. Influence of the structure on the electrochemical performance of lithium transition metal phosphates as cathodic materials in rechargeable lithium batteries: A new high-pressure form of LiMPO4 (M = Fe and Ni). J. Chem. Mater., 13, 1570(2001).

    [35] M. J. Bushiri, R. S. Jayasree, M. Fakhfakh, V. U. Nayar. Raman and infrared spectral analysis of thallium niobyl phosphates: Tl2NbO2PO4, Tl3NaNb4O9(PO4)2 and TlNbOP2O7. J. Mater. Chem. Phys., 73, 179(2002).

    [36] A. C. Dhieb, A. Valkonen, M. Rzaigui, W. Smirani. Synthesis, crystal structure, physico-chemical characterization and dielectric properties of a new hybrid material, 1-Ethylpiperazine-1,4-diium tetrachlorocadmate. J. Mol. Struct., 1102, 50(2015).

    [37] A. Hadded, J. Massoudi, E. Dhahri, K. Khirouni, B. F. O. Costa. Structural, optical and dielectric properties of Cu1.5Mn1.5O4 spinel nanoparticles. JRSC Adv., 10, 42542(2020).

    [38] M. S. Hossain, R. Islam, K. A. Khan. Electrical conduction mechanism and dielectric properties of vanadium doped ZnTe thin films. J. Optoelectron. Adv. Mater., 9, 2192(2007).

    [39] E. M. El-Menyawy, H. M. Zeyada, M. M. El-Nahass. AC Conductivity and Dielectric Behavior of Silicophosphate Glass Doped by Nd2O3. J. Solid State Sci., 12, 2182(2010).

    [40] A. Orliukas, A. Dindune, Z. Kanepe, J. Ronis, E. Kazakevicius, A. Ke_zionis. Synthesis, structure and peculiarities of ionic transport of Li1.6Mg0.3Ti1.7(PO4)3 ceramics. J. Solid State Ion., 157, 177(2003).

    [41] A. Badri, M. Jabli, M. Luisa López, M. Ben Amara. Synthesis, electrical and dye adsorption properties of KZnFe (PO4) 2 zeolite type structure. J. Inorg. Chem. Commun., 110, 107609(2019).

    [42] M. Benhaliliba, T. Asar, I. Missoum, Y.S. Ocak, S. Özçelik, C.E. Benouis, A. Arrar. Ac conductivity and impedance spectroscopy study and dielectric response of MgPc/GaAs organic heterojunction for solar energy application. J. Phys. B, 578, 411782(2020).

    [43] B. Alzahrani, S. Hcini, S. Mnefgui, A. Dhahri, M. L. Bouazizi. Ac conductivity and impedance spectroscopy study and dielectric response of MgPc/GaAs organic heterojunction for solar energy application. J. Phase Transit., 93, 417(2020).

    [44] R. Chtourou, B. Louati, K. Guidara. AC and DC conductivity study of KPb4(PO4)3 compound using impedance spectroscopy. J. Alloys Compds., 727, 771(2017).

    [45] T. Sahu, B. Behera. Dielectric and electrical study along with the evidences of small polaron tunnelling in Gd doped bismuth ferrite lead titanate composites. J. Mater. Sci. Mater. Electron., 29, 7412(2018).

    [46] A. Despotuli, A. Andreeva. Maxwell displacement current and nature of Jonsher’s universal, dynamic response in nanoionics. J. Ion., 21, 459(2015).

    [47] Kh. Dhahri. Dielectric, ac conductivity and modulus studies of sol–gel BaZrO2.9 compound. J. Phase Transit., 93, 802(2020).

    [48] M. Salah, S. Azizi, A. W. Boukhachem, Ch. Khaldi, M. Amlouk, J. Lamloumi. Preparation and characterization of zinc sulfide thin films through the sulfuration of sprayed zinc oxide thin films. J. Appl. Phys. A., 125, 615(2019).

    [49] Y.-M. Zhang, X.-Ch. Shen, Y.-C. Yan, G.-W. Wang, G.-Y. Wang, J.-Y. Li, X. Lu, X.Y. Zhou. J. Rare Met., 39, 1256(2020).

    [50] A. Ghosh. Enhanced thermoelectric performance of ternary compound Cu3PSe4 by defect engineering. J. Phys. Rev. B, 41, 3(1990).

    [51] S. R. Elliott. A.c. conduction in amorphous chalcogenide and pnictide semiconductors. J. Adv. Phys., 36, 135(1987).

    [52] S. Karmakar, Dh. Behera. Design and performance analysis of small scale parabolic trough solar collectors using sustainable materials. J. Aust. Ceram. Soc.(2020).

    [53] S. Amhil, L. Essaleh, S. M. Wasim, G. Marín, E. Choukri. Low temperature analysis of the electrical conduction with the NSPT mechanism in p-CuIn3Se5. J. Super Microstrut., 119, 194(2018).

    [54] H. E. Atyia, N. A. Hegab. Investigation of dielectric relaxation and a.c. conductivity of third generation multi-component Ge10−xSe60Te30Sbx (0 ≤ x ≤ 6) chalcogenide glasses. J. Optik, 127, 6232(2016).

    [55] S. Hassairi, B. Louati, K. Guidara. Synthesis and characterisation of orthophosphate KPbPO4 compound. J. Alloys Compd., 715, 397(2017).

    [56] W. Khan, A. H. Naqvi, M. Gupta, Sh. Husain, R. Kumar. Small polaron hopping conduction mechanism in Fe doped LaMnO3. J. Chem. Phys., 135, 054501(2011).

    [57] G. Wallez, C. Colbeau-Justin, T. Le Mercier, M. Quarton, F. Robert. Crystal chemistry and polymorphism of potassium– magnesium monophosphate. J. Solid State Chem., 136, 175(1998).

    [58] L. Miladi, A. Oueslati, K. Guidara. Phase transition, conduction mechanism and modulus study of KMgPO4 compound. J RSC Adv., 6, 83280(2016).

    [59] L. Miladi, A. Oueslati, K. Guidara. Vibrational spectroscopic and dielectric properties investigations of phase transitions in KMgPO4 compound. J. Mol. Struct., 1148, 404(2017).

    [60] R. AitBenhamou, G. Wallez, P. Loiseau, B. Viana, M. Elaatmani, M. Daoud, A. Zegzouti. Polymorphism of new rubidium magnesium monophosphate. J. Solid State Chem., 183, 2082(2010).

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    L. Miladi, A. Oueslati, M. Ben Gzaiel, M. Gargouri. Dielectric relaxation and conduction mechanism of NaMgPO4 compound[J]. Journal of Advanced Dielectrics, 2022, 12(3): 2150032

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    Paper Information

    Category: Research Articles

    Received: Jul. 14, 2021

    Accepted: Dec. 3, 2021

    Published Online: Nov. 1, 2022

    The Author Email: L. Miladi (leilamiladi@yahoo.fr), A. Oueslati (leilamiladi@yahoo.fr), M. Ben Gzaiel (leilamiladi@yahoo.fr), M. Gargouri (leilamiladi@yahoo.fr)

    DOI:10.1142/S2010135X21500326

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