Add to ORKGIn this paper we report results on the synthesis and magnetic properties of L10 FePt nanocomposite films. Three fabrication methods have been developed to produce high-anisotropy FePt films: non-epitaxial growth of (0 0 1)-oriented FePt:X (X=Ag, C) composite films that might be used for perpendicular media; monodispersed FePt(CFx) core–shell nanocluster-assembled films grown with a gas-aggregation technique and having uniform cluster size and narrow size distribution; and template-mediated self-assembled FePt clusters prepared with chemical synthesis by a hydrogen reduction technique, which has a high potential for controlling both cluster size and orientation. The magnetic properties are controllable through variations in the nanocluster p...
Nonepitaxial FePt: X films (X =Cu,Au,CuAu) with tunable magnetic properties are fabricated and inves...
Nonepitaxial FePt: X films (X =Cu,Au,CuAu) with tunable magnetic properties are fabricated and inves...
Nanostructured magnetic materials have unique properties that are different from bulk materials. The...
In this paper we report results on the synthesis and magnetic properties of L10 FePt nanocomposite f...
This paper reports results on the synthesis and magnetic properties of L10:X nanocomposite films, wh...
This paper reports results on the synthesis and magnetic properties of L10:X nanocomposite films, wh...
This chapter focuses on a gas-aggregation technique to prepare magnetic nanoclusters with controllab...
A sputtering gas-aggregation technique has been used to prepare FePt and FePt:Ag nanocluster films. ...
This chapter focuses on a gas-aggregation technique to prepare magnetic nanoclusters with controllab...
A sputtering gas-aggregation technique has been used to prepare FePt and FePt:Ag nanocluster films. ...
Magnetic properties and nanostructure of FePt : C cluster-deposited films with C volume fraction of ...
Magnetic properties and nanostructure of FePt : C cluster-deposited films with C volume fraction of ...
Nanocluster-assembled dilute (FePt) xC100-x films with 30≥x≥5 (x denotes volume fraction) were produ...
Nanocluster-assembled dilute (FePt) xC100-x films with 30≥x≥5 (x denotes volume fraction) were produ...
FePt L10-structured clusters were synthesized by hydrogen reduction of Fe(NO3)3•9H2O and H2PtCl6•6H2...
Nonepitaxial FePt: X films (X =Cu,Au,CuAu) with tunable magnetic properties are fabricated and inves...
Nonepitaxial FePt: X films (X =Cu,Au,CuAu) with tunable magnetic properties are fabricated and inves...
Nanostructured magnetic materials have unique properties that are different from bulk materials. The...
In this paper we report results on the synthesis and magnetic properties of L10 FePt nanocomposite f...
This paper reports results on the synthesis and magnetic properties of L10:X nanocomposite films, wh...
This paper reports results on the synthesis and magnetic properties of L10:X nanocomposite films, wh...
This chapter focuses on a gas-aggregation technique to prepare magnetic nanoclusters with controllab...
A sputtering gas-aggregation technique has been used to prepare FePt and FePt:Ag nanocluster films. ...
This chapter focuses on a gas-aggregation technique to prepare magnetic nanoclusters with controllab...
A sputtering gas-aggregation technique has been used to prepare FePt and FePt:Ag nanocluster films. ...
Magnetic properties and nanostructure of FePt : C cluster-deposited films with C volume fraction of ...
Magnetic properties and nanostructure of FePt : C cluster-deposited films with C volume fraction of ...
Nanocluster-assembled dilute (FePt) xC100-x films with 30≥x≥5 (x denotes volume fraction) were produ...
Nanocluster-assembled dilute (FePt) xC100-x films with 30≥x≥5 (x denotes volume fraction) were produ...
FePt L10-structured clusters were synthesized by hydrogen reduction of Fe(NO3)3•9H2O and H2PtCl6•6H2...
Nonepitaxial FePt: X films (X =Cu,Au,CuAu) with tunable magnetic properties are fabricated and inves...
Nonepitaxial FePt: X films (X =Cu,Au,CuAu) with tunable magnetic properties are fabricated and inves...
Nanostructured magnetic materials have unique properties that are different from bulk materials. The...