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Magneto-transport behavior of disordered three dimensional Ni_(x)Co_(1−x) inverse opal networks (7 pages)

    1. [1] Universidad Nacional Autónoma de México

      Universidad Nacional Autónoma de México

      México

    2. [2] Université Catholique de Louvain

      Université Catholique de Louvain

      Arrondissement de Nivelles, Bélgica

  • Localización: Revista Mexicana de Física, ISSN-e 0035-001X, Vol. 69, Nº. 4, 2023
  • Idioma: inglés
  • Enlaces
  • Resumen
    • Herein we report on the magneto-transport properties of disordered three dimensional inverse opals (3D-IOs) fabricated by a standard three-probe electrodeposition technique into the interstices of porous membranes made of 150 nm diameter self assembled poly(methyl methacrylate) spheres. This approach has allowed the synthesis of large scale nanocomposites with exact ferromagnetic Ni_(x)Co_(1−x) alloy compositions and complex interconnected structure. Particularly, the microstructure of Co-rich 3D-IOs is consistent with the hexagonal close packed hcp texture and its corresponding magnetoresistance is explained in terms of the hcp Co magnetocrystalline anisotropy contribution. Conversely, the magnetoresistive behavior of Ni-rich 3D-IO networks is explained in terms of only their magnetostatic field. The control of these features is made possible by the reduced dimensions of necks and walls, in the 40 nm to 60 nm range, of the 3D-IO structure. Despite the disordered morphology of these 3D-IO nanoarchitectures, their microstructural and magneto-transport properties can be fine tuned due to the reduced nanoscale dimensions of the electrical interconnections. These properties have been found to be comparable to those obtained in other 3D networks, making them interesting systems for their potential use for magnetic sensing and spintronic applications.


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