Add to ORKGLigand-free FePt nanoparticles are prepared in densely packed arrays (see Figure) under ultrahigh vacuum conditions, in which oxygen and hydrogen plasmas are used to remove the organic shells that are present after particle synthesis. The electronic structure and magnetic properties of the “bare”, face-centered-cubic FePt particles are presented. Applications in high-density magnetic data recording are foreseen
The influence of organic ligands on the saturation magnetization (M_S) of chemically disordered face...
The periodic shell structure and surface reconstruction of metallic FePt nanoparticles with icosahed...
The application of nanoparticles as quantum dots in nanoelectronics demands their arrangement in ord...
Ligand-free FePt nanoparticles are prepared in densely packed arrays (see Figure) under ultrahigh va...
FePt nanoparticles with average size of 9 nm were synthesized using a diblock polymer micellar metho...
805-809The organic ligand encapsulated and bare 4 nm FePt particles, synthesized by wet chemical pro...
We have produced assemblies of FePt nanoparticles using high temperature solution phase synthesis an...
We present the results of a study related to phase transformation of chemically synthesized FePt nan...
FePt nanoparticles, containing a near-equal atomic percentage of Fe and Pt, with a face centered te...
In an era of increasing data storage densities, FePt nanoparticles are ideal candidates due to their...
FePt magnetic nanoparticles are an important candidate material for many future magnetic application...
Monodisperse FePt nanoparticles were prepared using high temperature solution phase synthesis. Polym...
Herein, we report magnetic properties of as-synthesized face centered cubic (fcc)-FePt nanoparticles...
In this thesis, structural and magnetic properties of single Fe and FexPt1−x self-assembled nanopart...
The subject of this thesis is the investigation of the morphology, the structure, and the magnetic p...
The influence of organic ligands on the saturation magnetization (M_S) of chemically disordered face...
The periodic shell structure and surface reconstruction of metallic FePt nanoparticles with icosahed...
The application of nanoparticles as quantum dots in nanoelectronics demands their arrangement in ord...
Ligand-free FePt nanoparticles are prepared in densely packed arrays (see Figure) under ultrahigh va...
FePt nanoparticles with average size of 9 nm were synthesized using a diblock polymer micellar metho...
805-809The organic ligand encapsulated and bare 4 nm FePt particles, synthesized by wet chemical pro...
We have produced assemblies of FePt nanoparticles using high temperature solution phase synthesis an...
We present the results of a study related to phase transformation of chemically synthesized FePt nan...
FePt nanoparticles, containing a near-equal atomic percentage of Fe and Pt, with a face centered te...
In an era of increasing data storage densities, FePt nanoparticles are ideal candidates due to their...
FePt magnetic nanoparticles are an important candidate material for many future magnetic application...
Monodisperse FePt nanoparticles were prepared using high temperature solution phase synthesis. Polym...
Herein, we report magnetic properties of as-synthesized face centered cubic (fcc)-FePt nanoparticles...
In this thesis, structural and magnetic properties of single Fe and FexPt1−x self-assembled nanopart...
The subject of this thesis is the investigation of the morphology, the structure, and the magnetic p...
The influence of organic ligands on the saturation magnetization (M_S) of chemically disordered face...
The periodic shell structure and surface reconstruction of metallic FePt nanoparticles with icosahed...
The application of nanoparticles as quantum dots in nanoelectronics demands their arrangement in ord...