Structure and transformation of oxy-hydroxide films on Ni anodes below and above the oxygen evolution potential in alkaline electrolytes
By Sophia R. Mellsop and Alister Gardiner and Bernt Johannessen and Aaron T. Marshall
Published in Electrochimica Acta
NULL
2015
Abstract
The anodic behaviour of a nickel electrode has been investigated in \KOH\ electrolytes below and above the oxygen evolution potential. As the literature reports a wide range of behaviours, initial repetitive cyclic voltammetry in 1 M \KOH\ was compared to 30 wt% \KOH\ (i.e., that used in alkaline water electrolysers) and it was found that a process in addition to the normal ?-Ni(OH)2/?-NiOOH and ?-Ni(OH)2/?-NiOOH occurs in the more concentrated electrolyte. It is also confirmed that the initial hydroxide layer formed anodically from metallic nickel is not ?-Ni(OH)2, but a layer which is more readily reducible than ?-Ni(OH)2. At higher potentials, while in-situ \XAS\ suggested that ?-NiOOH is not transformed to any further phase up to 0.665 V vs HgHgO in 1 M KOH, after extensive \OER\ (at least 40 hrs) in 30 wt% at 50 mA cm?2, an additional phase can be identified by cyclic voltammetry. Overall, during galvanostatic oxygen evolution, the nickel anodes follow an ageing behaviour characterised by a brief activation period, a short period of high activity (i.e., low overpotential) followed by deactivation and eventually stable but poor activity. While no clear evidence was obtained to identify the most active phase for oxygen evolution, it is likely that this is related to ?-NiOOH and confined to the very surface of the electrode.
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