Electrodeposition and characterization of Ni-Mo alloy as an electrocatalyst for alkaline water electrolysis

This work details the efficiency of Ni-Mo alloy as an electrode for water splitting application through electrodeposition method. Nano-crystalline Ni-Mo alloy coatings were deposited in the current density (c.d.) range of 1.0–4.0Adm−2 on a copper substrate, and were investigated for their deposit ch...

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Bibliographic Details
Published in:Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2017-07, Vol.796, p.57-65
Main Authors: Shetty, Sandhya, Mohamed Jaffer Sadiq, M., Bhat, D. Krishna, Hegde, A. Chitharanjan
Format: Article
Language:English
Subjects:
Coated electrodes
Corrosion
Corrosion resistance
Corrosion resistant alloys
Crystal structure
Electrodeposition
Electrodes
Electrolysis
HER
Hydrogen
Hydrogen evolution reactions
Metals
Molybdenum
Morphology
Ni-Mo alloy
Nickel base alloys
Nitrogen dioxide
OER study
Oxygen evolution reactions
Protective coatings
Substrates
Water splitting
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Summary:This work details the efficiency of Ni-Mo alloy as an electrode for water splitting application through electrodeposition method. Nano-crystalline Ni-Mo alloy coatings were deposited in the current density (c.d.) range of 1.0–4.0Adm−2 on a copper substrate, and were investigated for their deposit characters, and their electrocatalytic behaviours in 1.0M KOH solution. The electrocatalytic behaviour of the coatings, in terms of their hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), were evaluated by electrochemical methods, like cyclic voltammetry (CV) and chronopotentiometry (CP). Experimental results revealed that Ni-Mo alloy electrodeposited at 1.0Adm−2 (38.3wt% Mo) and 4.0Adm−2 (33.2wt% Mo) shows the highest electrocatalytic tendency for HER and OER, respectively. The corrosion behaviour of Ni-Mo alloy coated at 4.0Adm−2 is found to be the most corrosion resistant in the same alkaline medium, compared to other coatings. The highest electrocatalytic activity of Ni-Mo alloy deposit for both HER and OER, depending on deposition c.d. was attributed to their composition (in terms of Ni and Mo content), structure and surface morphology; supported by EDXA, XRD, SEM and AFM analyses. The experimental study demonstrated that Ni-Mo alloy coatings follow Volmer-Tafel type of mechanism for HER, testified by Tafel slope analyses. [Display omitted] •Electrodeposited Ni-Mo alloys as an efficient electrocatalyst for water splitting application•Alloys deposited at higher and lower current density shows great efficiency towards HER and OER in alkaline 1.0M KOH medium.•Electrodes show good corrosion resistance in the alkaline medium.
ISSN:1572-6657
1873-2569
DOI:10.1016/j.jelechem.2017.05.002