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Journal of Nanoparticle Research

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01.11.2013 | Research Paper

Tailoring the magnetic properties of ordered 50-nm-diameter CoNi nanowire arrays

verfasst von: A. Pereira, C. Gallardo, A. P. Espejo, J. Briones, L. G. Vivas, M. Vázquez, J. C. Denardin, J. Escrig

Erschienen in: Journal of Nanoparticle Research | Ausgabe 11/2013

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Abstract

Co_xNi_1−x alloy nanowires with varying Co content (0 ≤ x ≤ 1), having a diameter of 50 nm and a length of 3 μm, have been fabricated by electrodeposition using an anodized aluminum oxide template. The composition and crystalline structure of the CoNi nanowires were determined by high-resolution scanning electron microscopy and energy-dispersive spectroscopy techniques. The room temperature magnetic behavior of the CoNi nanowire arrays is also studied and correlated with their structural and morphological properties. Analytical calculations of the angular dependence of the coercivity allow us to confirm that the magnetization reversal is mostly ascribed to the propagation of a transverse domain wall. Furthermore, our results indicate that the values of the effective anisotropy not only depend on the diameter of the nanowires, but also on the composition of the alloy. Finally, accurate control of the crystalline anisotropy plays a key role in the design of nanostructures with a required magnetic behavior, suitable for applications.

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Arico AS, Bruce P, Scrosati B, Tarascon JM, van Schalkwijk W (2005) Nanostructured materials for advanced energy conversion and storage devices. Nat Mater 4:366–377CrossRef

Cho J, Hyun J, Wu JH, Min SP, Ko JY, Soh QX, Kim YK (2006) Control of magnetic anisotropy of Co nanowires. J Magn Magn Mater 303:e281–e285CrossRef

Chung SW, Yu JY, Heath JR (2000) Silicon nanowire devices. Appl Phys Lett 76:2068CrossRef

Dai H, Wong EW, Lu YZ, Fan S, Lieber CM (1995) Synthesis and characterization of carbide nanorods. Nature 375:769–772CrossRef

Duan X, Huang Y, Cui Y, Wang J, Lieber CM (2001) Indium phosphide nanowires as building blocks for nanoscale electronic and optoelectronic devices. Nature 409:66–69CrossRef

Dvoret MH, Esteve D, Urbina C (1992) Single-electron transfer in metallic nanostructures. Nature 360:547–553CrossRef

Elhoussine F, Matefi-Tempfli S, Encinas A, Piraux L (2002) Conductance quantization in magnetic nanowires electrodeposited in nanopores. Appl Phys Lett 81:1681CrossRef

Escrig J, Bachmann J, Jing J, Daub M, Altbir D, Nielsch K (2008a) Crossover between two different magnetization reversal modes in arrays of iron oxide nanotubes. Phys Rev B 77:214421CrossRef

Escrig J, Lavin R, Palma JL, Denardin JC, Altbir D, Cortes A, Gomez H (2008b) Geometry dependence of coercivity in Ni nanowire arrays. Nanotechnology 19:075713CrossRef

Ferain E, Legras R (2009) Templates for engineered nano-objects for use in microwave, electronic devices and biomedical sensing application. Nucl Instrum Methods Phys Res B 267:1028–1031CrossRef

Franchin M, Knittel A, Albert M, Chernyshenko DS, Fischbacher T, Prabhakar A, Fangohr H (2011) Enhanced spin transfer torque effect for transverse domain walls in cylindrical nanowires. Phys Rev B 84:094409CrossRef

Gao N, Wang HJ, Yang EH (2010) An experimental study on ferromagnetic nickel nanowires functionalized with antibodies for cell separation. Nanotechnology 21:105107CrossRef

Huang HM, Mao M, Weber E, Russo R, Yang P (2001) Room-temperature ultraviolet nanowire nanolasers. Science 292:1897–1899CrossRef

Iijima S (1991) Helical microtubules of graphitic carbon. Nature 354:56–58CrossRef

Ivanov YP, Vivas LG, Asenjo A, Chuvilin A, Chubykalo-Fesenko O, Vazquez M (2013) Magnetic structure of a single-crystal hcp electrodeposited cobalt nanowires. EPL 102:17009CrossRef

Kou X, Fan X, Dumas RK, Lu Q, Zhang Y, Zhu H, Zhang X, Liu K, Xiao JQ (2011) Memory effect in magnetic nanowire arrays. Adv Mater 23:1393–1397CrossRef

Koyama T, Chiba D, Ueda K, Tanigawa H, Fukami S, Suzuki T, Ohshima N, Ishiwata N, Nakatani Y, Ono T (2011) Magnetic field insensibility of magnetic domain wall velocity induced by electrical current in Co/Ni nanowire. Appl Phys Lett 98:192509CrossRef

Kumar P (2010) Magnetic behavior of surface nanostructured 50-nm Nickel thin films. Nanoscale Res Lett 5:1596–1602CrossRef

Kumar P, Sangeeth K (2011) Chromium nanowires grown inside lithographically fabricated U-trench templates. Nanosci Nanotechnol Lett 3:643–647CrossRef

Kumar P, Krishna MG, Bhatnagar AK, Bhattacharya AK (2008a) Template-assisted fabrication of nanowires. Int J Nanomanuf 2:477–495CrossRef

Kumar P, Krishna MG, Bhattacharya AK (2008b) Electric field induced nanostructuring of metallic thin films. Int J Nanosci 7:255CrossRef

Landeros P, Allende S, Escrig J, Salcedo E, Altbir D, Vogel EE (2007) Reversal modes in magnetic nanotubes. Appl Phys Lett 90:102501CrossRef

Liu QF, Gao CX, Xiao JJ, Xue DS (2003) Size effects on magnetic properties in Fe_0.68Ni_0.32 alloy nanowire arrays. J Magn Magn Mater 260:151–155CrossRef

Martin CR (1994) Nanomaterials: a membrane-based synthetic approach. Science 266:1961–1966CrossRef

Martin BR, Dermody DJ, Reiss BD, Fang M, Lyon LA, Natan MJ, Mallouk TE (1999) Orthogonal self-assembly on colloidal gold-platinum nanorods. Adv Mater 11:1021–1025CrossRef

Masuda H, Fukuda K (1995) Ordered metal nanohole arrays made by a two-step replication of honeycomb structures of anodic alumina. Science 268:1466–1468CrossRef

Neumaier D, Vogl D, Eroms J, Weiss D (2008) Quantum transport in ferromagnetic permalloy nanostructures. Phys Rev B 78:174424CrossRef

Nielsch K, Wehrspohn RB, Barthel J, Kirschner J, Gosele U, Fischer SF, Kronmuller H (2001) Hexagonally ordered 100 nm period nickel nanowire arrays. Appl Phys Lett 79:1360CrossRef

Nielsch K, Choi J, Schwirn K, Wehrspohn RB, Gosele U (2002) Self-ordering regimes of porous alumina: the 10 porosity rule. Nano Lett 2:677–680CrossRef

Ounadjela K, Ferre R, Louail L, George JM, Maurice JL, Piraux L, Dubois S (1997) Magnetization reversal in cobalt and nickel electrodeposited nanowires. J Appl Phys 81:5455CrossRef

Prida VM, Garcia J, Iglesias L, Vega V, Gorlitz D, Nielsch K, Barriga-Castro ED, Mendoza-Resendez R, Ponce A, Luna C (2013) Electroplating and magnetostructural characterization of multisegmented Co₅₄Ni₄₆/Co₈₅Ni₁₅ nanowires from single electrochemical bath in anodic alumina tem-plates. Nanoscale Res Lett 8:263CrossRef

Rheem Y, Yoo BY, Beyermann WP, Myung NV (2007) Electro- and magneto-transport properties of a single CoNi nanowire. Nanotechnology 18:125204CrossRef

Rosa WO, Vivas LG, Pirota KR, Asenjo A, Vazquez M (2012) Influence of aspect ratio and anisotropy distribution in ordered CoNi nanowire arrays. J Magn Magn Mater 324:3679–3682CrossRef

Sun L, Searson PC, Chien CL (1999) Electrochemical deposition of nickel nanowire arrays in single-crystal mica films. Appl Phys Lett 74:2803CrossRef

Talapatra S, Tang X, Padi M, Kim T, Vajtai R, Sastry GVS, Shma M, Deevi SC, Ajayan PM (2009) Synthesis and characterization of cobalt-nickel alloy nanowires. J Mater Sci 44:2271–2275CrossRef

Thongmee S, Pang HL, Yi JB, Ding J, Lin JY, Van LH (2009) Unique nanostructures in NiCo alloy nanowires. Acta Mater 57:2482–2487CrossRef

Vazquez M, Vivas LG (2011) Magnetization reversal in Co-base nanowire arrays. Phys Status Solidi B 248:2368–2381CrossRef

Vega V, Bohnert T, Martens S, Waleczek M, Montero-Moreno JM, Gorlitz D, Prida VM, Nielsch K (2012) Tuning the magnetic anisotropy of Co-Ni nanowires: comparison between single nanowires and nanowire arrays in hard-anodic aluminum oxide membranes. Nanotechnology 23:465709CrossRef

Vivas LG, Yanes R, Chubykalo-Fesenko O, Vazquez M (2011) Coercivity of ordered arrays of magnetic Co nanowires with controlled variable lengths. Appl Phys Lett 98:232507CrossRef

Vivas LG, Escrig J, Trabada DG, Badini-Confalonieri GA, Vazquez M (2012a) Magnetic anisotropy in ordered textured Co nanowires. Appl Phys Lett 100:252405CrossRef

Vivas LG, Vazquez M, Escrig J, Allende S, Altbir D, Leitao DC, Araujo JP (2012b) Magnetic anisotropy in CoNi nanowire arrays: analytical calculations and experiments. Phys Rev B 85:035439CrossRef

Wernsdorfer W, Doudin B, Mailly D, Hasselbac K, Benoit A, Meier J, Ansermet JP, Barbara B (1996) Nucleation of magnetization reversal in individual nanosized nickel wires. Phys Rev Lett 77:1873–1876CrossRef

Whitney TM, Jiang JS, Searson PC, Chien CL (1993) Fabrication and magnetic properties of arrays of metallic nanowires. Science 261:1316–1319CrossRef

Xu J, Xu Y (2007) Fabrication and magnetic property of binary Co-Ni nanowire array by alternating current electrodeposition. Appl Surf Sci 253:7203–7206CrossRef

Xu X, Zangari G (2005) Microscopic structure and magnetic behavior of arrays of electrodeposited Ni and Fe nanowires. J Appl Phys 97:10A306

Zhang XY, Xu LH, Dai JY, Chan HLW (2004) Fabrication and magnetic behavior of Co-Ni nanowire arrays with small diameters. Phys B 353:187–191CrossRef

Titel: Tailoring the magnetic properties of ordered 50-nm-diameter CoNi nanowire arrays
verfasst von: A. Pereira
C. Gallardo
A. P. Espejo
J. Briones
L. G. Vivas
M. Vázquez
J. C. Denardin
J. Escrig
Publikationsdatum: 01.11.2013
Verlag: Springer Netherlands
Erschienen in: Journal of Nanoparticle Research / Ausgabe 11/2013
Print ISSN: 1388-0764
Elektronische ISSN: 1572-896X
DOI: https://doi.org/10.1007/s11051-013-2041-3

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