Surface Influences on the Electrodiffusive Behavior in Mesoporous Templates

Graf, Matthias; Poppe, Jan; Eychmüller, Alexander

doi:10.1002/smll.201400969

Cited by 7 publications

(1 citation statement)

References 36 publications

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“…Although the Cu electrodeposition parameters were maintained constant in all samples, for samples with low Ni lengths (L Ni <30 nm) the Cu segments' lengths (L Cu ) presented an average of 25±5 nm, whereas the samples with L Ni >60 nm showed L Cu =75±10 nm. This can be attributed to the diffusion limited process in the small segments due to the very short deposition pulses [25][26][27]. reported for high aspect ratio NWs with similar dimensions deposited using template-assisted methods [29][30][31].…”

Section: Morphological Characterizationmentioning

confidence: 99%

Tuning the magnetic properties of multisegmented Ni/Cu electrodeposited nanowires with controllable Ni lengths

et al. 2016

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The fabrication of segmented Ni/Cu nanowires (NWs), with tunable structural and magnetic properties, is reported. A potentiostatic electrodeposition method with a single electrolytic bath has been used to fabricate multisegmented Ni/Cu NWs inside a highly hexagonally ordered anodic nanoporous alumina membrane, with diameters of 50 nm and Ni segment lengths (L Ni) tuned from 10 nm up to 140 nm. The x-ray diffraction results evidenced a strong dependence of the Ni NWs crystallographic face-centered-cubic (fcc) texture along the [220] direction on the aspect ratio of the NWs. The magnetic behavior of the multisegmented Ni/Cu NW arrays, as a function of the magnetic field and temperature, is also studied and correlated with their structural and morphological properties. Micromagnetic simulations, together with the experimental results, showed a dominant antiferromagnetic coupling between Ni segments along the wire length for small low aspect-ratio magnetic segments. When increasing the Ni segments' length, the magnetic interactions between these along the wire became stronger, favouring a ferromagnetic coupling. The Curie temperature of the NWs was also found to strongly depend on the Ni magnetic segment length. Particularly the Curie temperature was found to be reduced 75 K for the 20 nm Ni segments, following the finite-size scaling relation with ξ 0 = 8.1 Å and γ = 0.48. These results emphasize the advantages of using a template assisted method to electrodeposit multilayer NWs, as it allows an easy tailor of the respective morphological, chemical, structural and magnetic properties.

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