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Magnetically tuned Ni0.3Co0.7DyxFe2–xO4 ferrites for high-density data storage applications
by
Khan, Noor-ul-Haq
, Shar, Muhammad Ali
, Asghar, H. M. Noor ul Huda Khan
, Sheikh, Furhaj Ahmed
, Khan, Muhammad Yaqoob
, Gilani, Zaheer Abbas
, Ali, Syed Mansoor
, Khalid, Muhammad
in
Anisotropy
/ Characterization and Evaluation of Materials
/ Cobalt
/ Condensed Matter Physics
/ Crystallites
/ Data storage
/ Dysprosium
/ Electron microscopy
/ Ferrites
/ Field emission
/ Grain boundaries
/ Heat treating
/ High density
/ Lattice strain
/ Machines
/ Magnetic properties
/ Magnetic recording
/ Magnetic saturation
/ Manufacturing
/ Morphology
/ Nanomaterials
/ Nanoparticles
/ Nanotechnology
/ Nitrates
/ Optical and Electronic Materials
/ Parameters
/ Physics
/ Physics and Astronomy
/ Processes
/ Recording instruments
/ Sol-gel processes
/ Substitutes
/ Surfaces and Interfaces
/ Thin Films
/ X-ray diffraction
2024
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Magnetically tuned Ni0.3Co0.7DyxFe2–xO4 ferrites for high-density data storage applications
by
Khan, Noor-ul-Haq
, Shar, Muhammad Ali
, Asghar, H. M. Noor ul Huda Khan
, Sheikh, Furhaj Ahmed
, Khan, Muhammad Yaqoob
, Gilani, Zaheer Abbas
, Ali, Syed Mansoor
, Khalid, Muhammad
in
Anisotropy
/ Characterization and Evaluation of Materials
/ Cobalt
/ Condensed Matter Physics
/ Crystallites
/ Data storage
/ Dysprosium
/ Electron microscopy
/ Ferrites
/ Field emission
/ Grain boundaries
/ Heat treating
/ High density
/ Lattice strain
/ Machines
/ Magnetic properties
/ Magnetic recording
/ Magnetic saturation
/ Manufacturing
/ Morphology
/ Nanomaterials
/ Nanoparticles
/ Nanotechnology
/ Nitrates
/ Optical and Electronic Materials
/ Parameters
/ Physics
/ Physics and Astronomy
/ Processes
/ Recording instruments
/ Sol-gel processes
/ Substitutes
/ Surfaces and Interfaces
/ Thin Films
/ X-ray diffraction
2024
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Magnetically tuned Ni0.3Co0.7DyxFe2–xO4 ferrites for high-density data storage applications
by
Khan, Noor-ul-Haq
, Shar, Muhammad Ali
, Asghar, H. M. Noor ul Huda Khan
, Sheikh, Furhaj Ahmed
, Khan, Muhammad Yaqoob
, Gilani, Zaheer Abbas
, Ali, Syed Mansoor
, Khalid, Muhammad
in
Anisotropy
/ Characterization and Evaluation of Materials
/ Cobalt
/ Condensed Matter Physics
/ Crystallites
/ Data storage
/ Dysprosium
/ Electron microscopy
/ Ferrites
/ Field emission
/ Grain boundaries
/ Heat treating
/ High density
/ Lattice strain
/ Machines
/ Magnetic properties
/ Magnetic recording
/ Magnetic saturation
/ Manufacturing
/ Morphology
/ Nanomaterials
/ Nanoparticles
/ Nanotechnology
/ Nitrates
/ Optical and Electronic Materials
/ Parameters
/ Physics
/ Physics and Astronomy
/ Processes
/ Recording instruments
/ Sol-gel processes
/ Substitutes
/ Surfaces and Interfaces
/ Thin Films
/ X-ray diffraction
2024
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Magnetically tuned Ni0.3Co0.7DyxFe2–xO4 ferrites for high-density data storage applications
Journal Article
Magnetically tuned Ni0.3Co0.7DyxFe2–xO4 ferrites for high-density data storage applications
2024
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Overview
Dysprosium (Dy
3+
)-substituted Ni–Co nanoparticles were synthesized by sol–gel technique. Structural and morphological analyses were accomplished by X-ray diffraction (XRD), scanning electron microscopy (SEM) and field emission transmission electron microscopy (FE-TEM). The crystallite size and lattice parameter followed a decreasing trend up on increase in Dy
3+
substitution for the concentration
x
≤ 0.15, which is due to the hindrance in crystallite growth and deposition of Dy
3+
on grain boundaries, respectively. The lattice strain was increased from 5.027 to 8.814 ×
10
-
3
with enhancement in Dy
3+
content. The morphological studies showed uniform distribution of particles with slight agglomeration and the average particle size was calculated to be 22.17 nm, which is in good agreement with XRD results. The magnetic studies were executed by vibrating sample magnetometer (VSM) over a wide range of applied magnetic field. The soft ferrimagnetic nature of these ferrites was revealed by narrow (M–H) curve. The magnetic parameters exhibited decreasing behavior upon increasing amount of substitution. The coercivity (
H
c
) was recorded to be 1097 Oe for
x
= 0.00 and saturation magnetization (
M
s
) was calculated in the range 27.04–40.86 emu/g. The anisotropy constant and magneton number were found to be in the range of 9887–46,703 erg/cm
3
and 1.21–1.71 µ
B
, respectively. These properties of prepared ferrites point towards their applicability in magnetic recording instruments, memory, and high-density data storage devices.
Publisher
Springer Berlin Heidelberg,Springer Nature B.V
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