Effect of the Preparation Conditions on the Magnetic Coercivity of CoPt Alloy Nanowires

In this paper, 3 mu m length and 200 nm diameter CoPt nanowire arrays (NWs) with different Co contents were prepared by electrodeposition at a controlled potential from an aqueous hexachloroplatinate solution. The synthesis occurred at two different solution pH values (2.5 and 5.5) in an electrochemical bath free of additives, as well as with saccharin as an organic additive. A complete morphological, compositional, structural and magnetic characterization of the as-prepared nanowires has been carried out. The results show that, by controlling the electrodeposition conditions, the Co content of the alloy can be tuned from 16% to 92%. The crystalline structure of the as-deposited compounds can also be controlled, with the obtained data showing that the face-centered cubic (fcc) crystalline structure changes into a hexagonal close-packed (hcp) structure when saccharin is used as an organic additive during the electrodeposition. The changes in the alloy's composition and crystalline structure strongly influence the magnetic properties of the NW's arrays.

Automated summary

In this paper, CoPt nanowire arrays with different Co contents were successfully prepared by electrodeposition. The composition and crystalline structure of the as-prepared nanowires were controlled by adjusting the electrodeposition conditions and adding saccharin as an organic additive. The magnetic properties of the nanowire arrays were strongly influenced by the changes in the alloy's composition and crystalline structure.