Microstructural analysis of low Ni content Zn alloy electrodeposited under applied magnetic field

“…The electrodeposition of nickel is an important industrial process for protection of metals against wear, for electrocatalysis and magnetic applications. [33][34][35][36] Although nickel is mostly electroplated from aqueous electrolyte baths,t he use of non-aqueous electrolytes has been described before,f or examplen ickel electrodeposition from haloaluminate ionic liquids, [37,38] from conventionali onic liquids, [39][40][41] and from deep-eutectic solvents. [42] Non-aqueous electrolytes offer advantagesi nc ertain applications, such as the synthesis of composite nickel coatings with co-deposited luminescent particles [43] and the deposition of nickel-zinc alloysa sp recursors for supported Raney catalysts.…”

Liquid Nickel Salts: Synthesis, Crystal Structure Determination, and Electrochemical Synthesis of Nickel Nanoparticles

“…The electrodeposition of nickel is an important industrial process for protection of metals against wear, for electrocatalysis and magnetic applications. [33][34][35][36] Although nickel is mostly electroplated from aqueous electrolyte baths,t he use of non-aqueous electrolytes has been described before,f or examplen ickel electrodeposition from haloaluminate ionic liquids, [37,38] from conventionali onic liquids, [39][40][41] and from deep-eutectic solvents. [42] Non-aqueous electrolytes offer advantagesi nc ertain applications, such as the synthesis of composite nickel coatings with co-deposited luminescent particles [43] and the deposition of nickel-zinc alloysa sp recursors for supported Raney catalysts.…”

Liquid Nickel Salts: Synthesis, Crystal Structure Determination, and Electrochemical Synthesis of Nickel Nanoparticles

“…Devos et al reported that a magnetic field could change the surface morphology and the preferred orientation of the nickel grain due to an increase of the diffusion flux of specific inhibiting species [22]. Our previous papers have shown that low magnetic field reduces the surface roughness and that structural changes could be observed for zinc-nickel alloys electrodeposited under applied magnetic field [30,31]. The aim of this work was to study the zinc-nickel alloy behavior in NaCl solution in order to evaluate the link between the applied magnetic effect which induces changes on morphology and structure, and the corrosion behavior.…”

Electrochemical corrosion behavior in NaCl medium of zinc–nickel alloys electrodeposited under applied magnetic field

“…According to the author's best knowledge, there are only a few articles concerning the influence of a superimposed magnetic field on the electrodeposition of alloys [16,17,19,20,30,[44][45][46] and none of them considers the CoFe alloy system.…”

The effect of magnetic fields on the electrodeposition of CoFe alloys