Electrodeposition of compact Ag–Ni films from concentrated chloride baths and their test in the reduction of nitrate in alkali

Compact Ag and Ag–Ni alloy layers have been electrodeposited from a concentrated chloride bath. The composition of the alloy can be controlled by regulation of the deposition current density jdep under conditions of accurate transport control like those ensured by the rotating disk electrode. XRD an...

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Bibliographic Details
Published in:Electrochimica acta 2020-06, Vol.346, p.136240, Article 136240
Main Authors: Mattarozzi, Luca, Cattarin, Sandro, Comisso, Nicola, El Habra, Naida, Guerriero, Paolo, Musiani, Marco, Vázquez-Gómez, Lourdes
Format: Article
Language:English
Subjects:
Ag–Ni alloys
Ammonia
Chlorides
Crystal structure
Crystallinity
Electrodeposition
Hydrogen evolution
Metastable alloys
Nitrate reduction
Reduction
Rotating disks
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Summary:Compact Ag and Ag–Ni alloy layers have been electrodeposited from a concentrated chloride bath. The composition of the alloy can be controlled by regulation of the deposition current density jdep under conditions of accurate transport control like those ensured by the rotating disk electrode. XRD analyses suggest formation of Ag-rich crystalline phases in all samples and of Ni-rich crystalline phases only in samples with Ni fraction ≥50 at%. Test experiments of nitrate reduction in alkali show: almost exclusive reduction to nitrite on Ag; prevalent reduction to ammonia on Ni, with an important side evolution of hydrogen; predominant and more efficient reduction to ammonia on Ag–Ni, with lower hydrogen evolution and better current stability. [Display omitted] •Electrodeposition of compact Ag–Ni alloys from simple chloride baths.•Accurate tuning of composition by regulation of the deposition current density.•No substantial inclusion of foreign elements.•Exploration of the performances as cathode for nitrate reduction.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2020.136240