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Rietveld analysis and dielectric spectroscopy of high conductivity and low dielectric loss Co Zn La ferrite. / Altarawneh, Aseel; Arrasheed, Enas; Alibwaini, Yamen et al.
In: Phase Transitions, Vol. 97, No. 4-5, 03.05.2024, p. 260-275.

Research output: Contribution to journalArticlepeer-review

Harvard

Altarawneh, A, Arrasheed, E, Alibwaini, Y, Ghazy, RA, Hemeda, O, Henaish, A & Mostafa, M 2024, 'Rietveld analysis and dielectric spectroscopy of high conductivity and low dielectric loss Co Zn La ferrite', Phase Transitions, vol. 97, no. 4-5, pp. 260-275. https://doi.org/10.1080/01411594.2024.2313727

APA

Altarawneh, A., Arrasheed, E., Alibwaini, Y., Ghazy, R. A., Hemeda, O., Henaish, A., & Mostafa, M. (2024). Rietveld analysis and dielectric spectroscopy of high conductivity and low dielectric loss Co Zn La ferrite. Phase Transitions, 97(4-5), 260-275. https://doi.org/10.1080/01411594.2024.2313727

Vancouver

Altarawneh A, Arrasheed E, Alibwaini Y, Ghazy RA, Hemeda O, Henaish A et al. Rietveld analysis and dielectric spectroscopy of high conductivity and low dielectric loss Co Zn La ferrite. Phase Transitions. 2024 May 3;97(4-5):260-275. doi: 10.1080/01411594.2024.2313727

Author

Altarawneh, Aseel ; Arrasheed, Enas ; Alibwaini, Yamen et al. / Rietveld analysis and dielectric spectroscopy of high conductivity and low dielectric loss Co Zn La ferrite. In: Phase Transitions. 2024 ; Vol. 97, No. 4-5. pp. 260-275.

BibTeX

@article{ba19e8f950574301af1577ead921e429,
title = "Rietveld analysis and dielectric spectroscopy of high conductivity and low dielectric loss Co Zn La ferrite",
abstract = "This study investigates structural and dielectric characteristics of Co0.65Zn0.35LaxFe2-xO4 (CZL), with (x = 0, 0.02, 0.04, 0.06, 0.08 and 0.1), synthesized using the flash auto-combustion approach. The Fourier transform infrared spectroscopy supports the X-ray results for forming single-phase spinel structure. The Debye Scherer{\textquoteright}s formula was used to evaluate the average crystallite size that found within the range of 31.5–46 nm. With increasing La3+ concentration, the lattice parameter, cell volume and density decreased. The formation of nanoparticles was supported by transmission electron microscopy TEM examination, which was coinciding with nanoparticle size from (XRD) data. The sample x = 0.06 has the highest value of resistivity and the lowest dielectric loss. The high value of electrical resistivity in ferrite is suitable for the high frequency application where eddy current losses are appreciable. The dielectric constant decreases with increasing La content, implying that the material{\textquoteright}s dielectric properties are very useful for electron magnetic wave absorption applications.",
author = "Aseel Altarawneh and Enas Arrasheed and Yamen Alibwaini and Ghazy, {Ryad A.} and O. Hemeda and A. Henaish and M. Mostafa",
year = "2024",
month = may,
day = "3",
doi = "10.1080/01411594.2024.2313727",
language = "English",
volume = "97",
pages = "260--275",
journal = "Phase Transitions",
issn = "0141-1594",
publisher = "Taylor and Francis Ltd.",
number = "4-5",

}

RIS

TY - JOUR

T1 - Rietveld analysis and dielectric spectroscopy of high conductivity and low dielectric loss Co Zn La ferrite

AU - Altarawneh, Aseel

AU - Arrasheed, Enas

AU - Alibwaini, Yamen

AU - Ghazy, Ryad A.

AU - Hemeda, O.

AU - Henaish, A.

AU - Mostafa, M.

PY - 2024/5/3

Y1 - 2024/5/3

N2 - This study investigates structural and dielectric characteristics of Co0.65Zn0.35LaxFe2-xO4 (CZL), with (x = 0, 0.02, 0.04, 0.06, 0.08 and 0.1), synthesized using the flash auto-combustion approach. The Fourier transform infrared spectroscopy supports the X-ray results for forming single-phase spinel structure. The Debye Scherer’s formula was used to evaluate the average crystallite size that found within the range of 31.5–46 nm. With increasing La3+ concentration, the lattice parameter, cell volume and density decreased. The formation of nanoparticles was supported by transmission electron microscopy TEM examination, which was coinciding with nanoparticle size from (XRD) data. The sample x = 0.06 has the highest value of resistivity and the lowest dielectric loss. The high value of electrical resistivity in ferrite is suitable for the high frequency application where eddy current losses are appreciable. The dielectric constant decreases with increasing La content, implying that the material’s dielectric properties are very useful for electron magnetic wave absorption applications.

AB - This study investigates structural and dielectric characteristics of Co0.65Zn0.35LaxFe2-xO4 (CZL), with (x = 0, 0.02, 0.04, 0.06, 0.08 and 0.1), synthesized using the flash auto-combustion approach. The Fourier transform infrared spectroscopy supports the X-ray results for forming single-phase spinel structure. The Debye Scherer’s formula was used to evaluate the average crystallite size that found within the range of 31.5–46 nm. With increasing La3+ concentration, the lattice parameter, cell volume and density decreased. The formation of nanoparticles was supported by transmission electron microscopy TEM examination, which was coinciding with nanoparticle size from (XRD) data. The sample x = 0.06 has the highest value of resistivity and the lowest dielectric loss. The high value of electrical resistivity in ferrite is suitable for the high frequency application where eddy current losses are appreciable. The dielectric constant decreases with increasing La content, implying that the material’s dielectric properties are very useful for electron magnetic wave absorption applications.

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UR - https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=tsmetrics&SrcApp=tsm_test&DestApp=WOS_CPL&DestLinkType=FullRecord&KeyUT=001177924800001

U2 - 10.1080/01411594.2024.2313727

DO - 10.1080/01411594.2024.2313727

M3 - Article

VL - 97

SP - 260

EP - 275

JO - Phase Transitions

JF - Phase Transitions

SN - 0141-1594

IS - 4-5

ER -

ID: 55311239