Lee, KH Kim, YJ Jeung, WY 2024-01-21T08:43:35Z 2024-01-21T08:43:35Z 2021-09-01 2003-06 0255-5476 https://pubs.kist.re.kr/handle/201004/138549 We have investigated the dimensional and microstructural dependence of magnetic proper-ties of Co(P) nanowire arrays fabricated by ac/dc electroforming into different size nanopores in anodic aluminum oxide (AAO). Our results indicate that the magnetic properties of nanowire arrays can be varied with their dimensions and microstructures. As for the Co(P) nanowire arrays with the diameter of 20 nm, it was found to have the coercivity of 2.58 kOe due to the shape anisotropy and squareness(M-r/M-s) of 0.78. The Co(P) nanowire arrays with the diameter of 200 nm, however, showed very different magnetic properties depending on the current densities. Nanowires fabricated at relatively low current density had the tendency to have the preferred crystallographic orientation of (0002) parallel to the nanowire. These microstructural differences are the reason why Co(P) nanowire arrays prepared at different current densities exhibited different magnetic properties. English TRANS TECH PUBLICATIONS LTD COBALT Dimensional and microstructural dependence of the magnetic properties of electrodeposited Co(P) nanowire arrays Article 10.4028/www.scientific.net/MSF.437-438.45 1 ADVANCED MATERIALS PROCESSING II, v.437-4, pp.45 - 48 ADVANCED MATERIALS PROCESSING II 437-4 45 48 scie scopus 000185937400008 2-s2.0-0242291118 Materials Science, Multidisciplinary Materials Science, Characterization & Testing Materials Science, Coatings & Films Materials Science, Composites Materials Science Article; Proceedings Paper COBALT Co(P) electrodeposition magnetic anisotropy microstructure nanowire