Citation
Khe, Cheng Seong
(2006)
Dielectric Properties of Nd-Doped Yttrium Iron Garnet and Cu Or Co-Doped Nickel Zinc Ferrites.
Masters thesis, Universiti Putra Malaysia.
Abstract
In this work, three series of soft ferrites were synthesized via solid state route. These
are Nio.3-xCu,Zno.7Fe20(4x = 0.0, 0.05, 0.10, 0.15, 0.20, 0.25 and 0.30), Ni0.S-
.C&Zno.~Fe204 (x=O.O, 0.1, 0.2, 0.3, 0.4, and 0.5) and Y3..NdxFes0~2 (x=O.O, 0.4,
0.8, 1.2 and 1.6). The X-ray diffraction patterns showing single phases for these three
samples series, confirmed that the spinel and garnet structure had been formed in the
Ni-Zn ferrites and YIG respectively.
Ni-Zn ferrites substituted with copper oxide showed exaggerated grain growth
whereas the other series substituted with cobalt oxide had no massive changes in the
microstructure. For the YIG substituted with neodymium oxide, the first sample
exhibited a porous microstructure and developed to become a more compact and
poreless microstructure as neodymium increased.
Measurement of the electrical properties was carried out in the temperature range
from 28°C to 300°C in the low frequency region of 10 Hz to 1 MHz. Impedance analyzer was employed in the ac data acquisition whereas a pico-ammeter and a dc
voltage source were used to measure electric current at different voltages.
The results obtained from dielectric measurements indicate that microstructure of the
samples plays an important role in the dielectric dispersion. A sample with higher
porosity is associated with a low value of dielectric permittivity due to its high
resistivity. Meanwhile a sample with a more compact structure exhibits higher
dielectric permittivity due to its higher conductivity. Hence, electron hopping
between ~ ean~d ~+e w~ou'ld increase in the conductive sample and give higher
dielectric permittivity if compared with the resistive one.
The dielectric response for every sample in the three series of soft ferrites displayed
different mechanisms throughout the investigated temperature range. Therefore,
dielectric behaviour of a sample can be modeled into at least two equivalent circuits.
The complex impedance plots of both samples Ni-Zn ferrites and YIG showed
overlapping semicircles. However, at high temperature the high frequency arc
disappeared and there remained just one semicircle. The center of the semicircle for
all samples was depressed below the real impedance axis and described by the
parameter a. The results indicate that all these three series of soft ferrites can be
represented by two parallel RC circuits connected in series that correspond to the
contributions of grain and grain boundary.
The ac conductivity for the three series of soft ferrites showed almost similar
behaviour. At lower temperature, the ac curves can be divided into two region. The low frequency region showed that the ac conductivity was weakly dependent on
frequency whereas at high frequency region, it was strongly dependent on frequency.
As the temperature increased, the ac conductivity seemed independent of frequency.
Extrinsic and intrinsic conductions had been inferred to occur in these samples.
It is also found that microstructural entities such as grains and porosity play an
important role in the dc resistivity. The two activation energies obtained indicated
that there were probably two parallel conduction mechanisms or spin reorientation
phase transition occurred.
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Additional Metadata
Item Type: |
Thesis
(Masters)
|
Subject: |
Ferrites (Magnetic materials) |
Subject: |
Dielectrics - Magnetic properties |
Call Number: |
FS 2006 13 |
Chairman Supervisor: |
Jumiah Binti Hassan, PhD |
Divisions: |
Faculty of Science |
Depositing User: |
Nur Izyan Mohd Zaki
|
Date Deposited: |
13 May 2010 00:40 |
Last Modified: |
20 Oct 2023 07:49 |
URI: |
http://psasir.upm.edu.my/id/eprint/6289 |
Statistic Details: |
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