3. Summary of the Research
Proposal
• In the last recent years, magnetic nanoparticles shows a great
potential in the domain of biomedicine. They can be used in
medication transportation, heat-producing, and as an MRI
contrast specialist in attractive magnetic resonance (MRI)
imaging.
• Ferrites have a various-advantages over other attractive
materials. In this research project, we will discuss the possible
applications of nickel-ferrite and will also check out T1 and T2
utilizations of nickel-ferrite NiFe2O4 combined with chromium-
oxide Cr2O3 Attractive magnetic resonance imaging utilizing T2
contrast specialists (MRI).
4. Introduction
• Attractive Magnetic Resonance Imaging (MRI) is especially
significant in molecular-imaging and holds a great position.
Attractive magnetic resonance imaging (MRI) is an intense
powerful demonstrative technique in medical science.
• It offers different benefits, including remarkable imaging
adaptability, non-ionizing properties, patient security, and
high-resolution pictures. It also secures a high-goal
pictures with extraordinary delicate tissue contrast
between particular tissues, as well as obtaining
unmistakable clinical data.
5. Statement of the Problem
•Contrast specialists can assist with
further developing picture contrast in
attractive reverberation imaging (MRI).
Many examinations are currently being
directed to further develop MRI imaging
discoveries by upgrading the
differentiation impact. The objective of
6. Research Methodology
• The research Methodology will contain the
following steps:
• • Synthesis of nickel ferrite 𝑁𝑖𝐹𝑒2𝑂4.
• • Synthesis of chromium oxide nanoparticles.
• • Synthesis of 𝑁𝑖𝐹𝑒2𝑂4/𝐶𝑟2𝑂3 nanocomposite.
7. Other Characterization of the
material checked through:
• Sample’s characterization through X-Ray Diffraction (XRD).
• Surface morphology by Scanning Electron Microscope
(SEM) and particle size by Transmission Electron
Microscope (TEM) analysis.
• Elemental composition of 𝑁𝑖𝐹𝑒2𝑂4/𝐶𝑟2𝑂3 nanocomposite
via Energy Dispersive X-Ray Analysis (EDAX).
• Fourier transforms infrared spectroscopy (FTIR) method
will be used to obtain the infrared spectrum of
transmission or absorption of a sample.
