Synthesis and physical properties of nanopowder and electrical properties of bulk samples of ZnFe2-xNixO4 (x: 0, 0.05, 0.10)

Cheema Harshpreet; Kumar Satyam; Alvi Parvez Ahmad; Choudhary Banwari Lal; Kumar Upendra

首页> 外文期刊>Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan >Synthesis and physical properties of nanopowder and electrical properties of bulk samples of ZnFe2-xNixO4 (x: 0, 0.05, 0.10)

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Synthesis and physical properties of nanopowder and electrical properties of bulk samples of ZnFe2-xNixO4 (x: 0, 0.05, 0.10)

机译：ZnFe2-XnixO4批量样品的纳米滤泡和电性能的合成与物理性质（X：0,0.05,0.10）

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The Ni modified samples ZnFe2-xNixO4 with x = 0, 0.05, and 0.10 were synthesized using the sol-gel combustion method at 60 degrees C. The phase of obtained samples was determined using X-ray powder diffraction and found that it crystallized into a cubic spinel group. The lattice parameter of samples was decreased with increasing Ni concentration. However, the local symmetry of samples was explored using Raman spectroscopy. The presence of Raman band at 655 cm(-1) was assigned to the vibration of Fe-O; found to be shifted towards higher wavenumber reconfirm the incorporation of Ni. The optical bandgap of the samples was determined using the Tauc plot and found to be in the range of 2.50 to 2.95 eV, which reflects the inorganic semiconducting nature of samples. Dielectric properties of samples were studied as a function of frequency and temperature show the presence of interfacial and orientational polarization in the sample. The resistivity of samples has been studied using Arrhenius model, and found three different regions of conduction within investigated temperature range. The first region assigned to the hopping of electron, while the second region to the hopping of polaron via the orientation of dipole (2Ni(Fe') - 2h); or(2Ni(Fe') - V-(o) triple over dot), and the third region assigned to migration of V-(o) triple over dot or e'/h:. The conductivity of samples found in range of (0.85-8.95) S-cm(-1) higher than conventional electrolytes used in IT-SOFCs. Based on these studies, the present materials can be used as a potential candidate for semiconductor devices and electrolytes in IT-SOFCs applications. (C) 2020 The Society of Powder Technology Japan. Published by Elsevier B.V. and The Society of Powder Technology Japan. All rights reserved.

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来源
《Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan》 |2020年第10期|共12页
作者
Cheema Harshpreet; Kumar Satyam; Alvi Parvez Ahmad; Choudhary Banwari Lal; Kumar Upendra;
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作者单位

Banasthali Vidyapith Dept Phys Banasthali 304022 Rajasthan India;

Univ Delhi Hansraj Coll Dept Phys &

Elect Delhi 110007 India;

Banasthali Vidyapith Dept Phys Banasthali 304022 Rajasthan India;

Banasthali Vidyapith Dept Phys Banasthali 304022 Rajasthan India;

Banasthali Vidyapith Dept Phys Banasthali 304022 Rajasthan India;

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正文语种 eng
中图分类粉末技术;
关键词
ZnFe2-xNixO4; XRD; Raman spectroscopy; Dielectric properties; DC resistivity;

机译：ZnFe2-Xnixo4;XRD;拉曼光谱;介电性能;直流电阻率;

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Synthesis and physical properties of nanopowder and electrical properties of bulk samples of ZnFe2-xNixO4 (x: 0, 0.05, 0.10)

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