Sören Buchenau, Philip Sergelius, et al.
2D Materials
Nickel-rich NiFe thin films (Ni92Fe8, Ni89Fe11 and Ni83Fe17) were prepared by combining atomic layer deposition (ALD) with a subsequent thermal reduction process. In order to obtain Ni x Fe1-xO y films, one ALD supercycle was performed according to the following sequence: m NiCp2/O3, with m = 1, 2 or 3, followed by one FeCp2/O3 cycle. The supercycle was repeated n times. The thermal reduction process in hydrogen atmosphere was investigated by in situ x-ray diffraction studies as a function of temperature. The metallic nickel iron alloy thin films were investigated and characterized with respect to crystallinity, morphology, resistivity, and magnetism. As proof-of-concept magnetic properties of an array of Ni83Fe17, close to the perfect Permalloy stoichiometry, nanotubes and an isolated tube were investigated.
Sören Buchenau, Philip Sergelius, et al.
2D Materials
Johannes Gooth, F. Menges, et al.
Nature Communications
Heinz Schmid, Benedikt F. Mayer, et al.
S3S 2017
Ann-Kathrin Michel, Anna Corinna Niemann, et al.
Journal of Physics D: Applied Physics