Morphology, structure, and magnetic properties of electrodeposited Ni films obtained from different pH solutions
Identifieur interne : 000328 ( PascalFrancis/Curation ); précédent : 000327; suivant : 000329Morphology, structure, and magnetic properties of electrodeposited Ni films obtained from different pH solutions
Auteurs : M. Boubatra [Algérie] ; A. Azizi [Algérie] ; G. Schmerber [France] ; A. Dinia [France]Source :
- Journal of materials science. Materials in electronics [ 0957-4522 ] ; 2011.
Descripteurs français
- Pascal (Inist)
- Microstructure, Propriété magnétique, Dépôt électrolytique, Solution aqueuse, Microscopie électronique balayage, Diffraction RX, Magnétométrie, Aimantation saturation, Structure granulaire, Conception compacte, Structure surface, Rugosité, Texture, Champ coercitif, Force coercitive, Nanocristal, Nickel, Réseau cubique, Réseau cubique face centrée, Fabrication microélectronique, 6865, 7575, 0779, 6146, 8540H.
- Wicri :
- topic : Nickel.
English descriptors
- KwdEn :
- Aqueous solutions, Coercive force, Compact design, Cubic lattices, Electrodeposition, FCC lattices, Granular structure, Magnetic properties, Magnetometry, Microelectronic fabrication, Microstructure, Nanocrystal, Nickel, Roughness, Saturation magnetization, Scanning electron microscopy, Surface structure, Texture, XRD.
Abstract
Nanocrystalline nickel (Ni) films were obtained by electrodeposition from chloride aqueous solution with different pH values. The influence of electrolyte pH on the morphological, structural, and magnetic properties is studied, using scanning electron microscopy (SEM), X-ray diffraction (XRD), and alternating gradient force magnetometry (AGFM) techniques. SEM studies revealed a granular and compact structure of the surface of the electrodeposited Ni layers, and the variation of film roughness with bath pH is established. XRD analysis gives evidence of strongly textured Ni films along the (111) direction, with the face-centered cubic (fcc) structure for all baths pH. Magnetic properties such as coercivity, remanence, saturation magnetization, and squareness showed strong dependence on the baths pH and crystallite size. High coercivity was attributed to the presence of the small crystallite size of deposits. The properties of the deposit are greatly influenced by the solution pH.
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<series><title level="j" type="main">Journal of materials science. Materials in electronics</title>
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<term>FCC lattices</term>
<term>Granular structure</term>
<term>Magnetic properties</term>
<term>Magnetometry</term>
<term>Microelectronic fabrication</term>
<term>Microstructure</term>
<term>Nanocrystal</term>
<term>Nickel</term>
<term>Roughness</term>
<term>Saturation magnetization</term>
<term>Scanning electron microscopy</term>
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<term>Dépôt électrolytique</term>
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<term>Microscopie électronique balayage</term>
<term>Diffraction RX</term>
<term>Magnétométrie</term>
<term>Aimantation saturation</term>
<term>Structure granulaire</term>
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<term>Structure surface</term>
<term>Rugosité</term>
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<term>Champ coercitif</term>
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<term>Nickel</term>
<term>Réseau cubique</term>
<term>Réseau cubique face centrée</term>
<term>Fabrication microélectronique</term>
<term>6865</term>
<term>7575</term>
<term>0779</term>
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<front><div type="abstract" xml:lang="en">Nanocrystalline nickel (Ni) films were obtained by electrodeposition from chloride aqueous solution with different pH values. The influence of electrolyte pH on the morphological, structural, and magnetic properties is studied, using scanning electron microscopy (SEM), X-ray diffraction (XRD), and alternating gradient force magnetometry (AGFM) techniques. SEM studies revealed a granular and compact structure of the surface of the electrodeposited Ni layers, and the variation of film roughness with bath pH is established. XRD analysis gives evidence of strongly textured Ni films along the (111) direction, with the face-centered cubic (fcc) structure for all baths pH. Magnetic properties such as coercivity, remanence, saturation magnetization, and squareness showed strong dependence on the baths pH and crystallite size. High coercivity was attributed to the presence of the small crystallite size of deposits. The properties of the deposit are greatly influenced by the solution pH.</div>
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