Add to ORKGThis thesis investigates the synthesis and characterization of FePt nanoparticles, a material which is a promising candidate for use as an ultra-high density magnetic storage medium; relevant literature is reviewed in chapter one. Chapter two gives full details of the characterisation techniques and physical property measurements employed throughout the work described in the following chapters. This includes powder X-ray diffraction, SQUID magnetometry, transmission electron microscopy, extended X- ray fluorescence spectroscopy and Rutherford backscattering. Chapter three describes the synthesis and characterisation of FePt nanoparticles prepared by a route presented in the literature as well as one developed during this study. Chapter four...
Magnetic nanoparticles show promise in a vast array of devices that utilize control of nano magnetis...
Nanocomposites formed by hard and soft magnetic phases are very promising for magnetic energy storag...
Herein, we report magnetic properties of as-synthesized face centered cubic (fcc)-FePt nanoparticles...
In an era of increasing data storage densities, FePt nanoparticles are ideal candidates due to their...
In an era of increasing data storage densities, FePt nanoparticles are ideal candidates due to their...
We have produced assemblies of FePt nanoparticles using high temperature solution phase synthesis an...
Monodisperse FePt nanoparticles were prepared using high temperature solution phase synthesis. Polym...
FePt nanoparticles, containing a near-equal atomic percentage of Fe and Pt, with a face centered te...
Abstract Monodisperse FePt nanoparticles with size of 4.5 and 6.0 nm were prepared by simultaneous r...
Annealed iron-platinum (FePt) is ferromagnetic in a nanoscale regime which is necessary for energy a...
The subject of this thesis is the investigation of the morphology, the structure, and the magnetic p...
Iron platinum (FePt) has attracted growing interest because of its high Curie temperature, magneto-c...
FePt nanoparticles are of significant importance because of their potential application in magnetic ...
Magnetic nanoparticles show promise in a vast array of devices that utilize control of nano magnetis...
Nanocomposites formed by hard and soft magnetic phases are very promising for magnetic energy storag...
Magnetic nanoparticles show promise in a vast array of devices that utilize control of nano magnetis...
Nanocomposites formed by hard and soft magnetic phases are very promising for magnetic energy storag...
Herein, we report magnetic properties of as-synthesized face centered cubic (fcc)-FePt nanoparticles...
In an era of increasing data storage densities, FePt nanoparticles are ideal candidates due to their...
In an era of increasing data storage densities, FePt nanoparticles are ideal candidates due to their...
We have produced assemblies of FePt nanoparticles using high temperature solution phase synthesis an...
Monodisperse FePt nanoparticles were prepared using high temperature solution phase synthesis. Polym...
FePt nanoparticles, containing a near-equal atomic percentage of Fe and Pt, with a face centered te...
Abstract Monodisperse FePt nanoparticles with size of 4.5 and 6.0 nm were prepared by simultaneous r...
Annealed iron-platinum (FePt) is ferromagnetic in a nanoscale regime which is necessary for energy a...
The subject of this thesis is the investigation of the morphology, the structure, and the magnetic p...
Iron platinum (FePt) has attracted growing interest because of its high Curie temperature, magneto-c...
FePt nanoparticles are of significant importance because of their potential application in magnetic ...
Magnetic nanoparticles show promise in a vast array of devices that utilize control of nano magnetis...
Nanocomposites formed by hard and soft magnetic phases are very promising for magnetic energy storag...
Magnetic nanoparticles show promise in a vast array of devices that utilize control of nano magnetis...
Nanocomposites formed by hard and soft magnetic phases are very promising for magnetic energy storag...
Herein, we report magnetic properties of as-synthesized face centered cubic (fcc)-FePt nanoparticles...