Elucidating the Influence of Intercalated Anions in NiFe LDH on the Electrocatalytic Behavior of OER : A Kinetic Study

Berger, Maike and Popa, Ioana M. and Negahdar, Leila and Palkovits, Stefan and Kaufmann, Bastian and Pilaski, Moritz and Hoster, Harry and Palkovits, Regina (2023) Elucidating the Influence of Intercalated Anions in NiFe LDH on the Electrocatalytic Behavior of OER : A Kinetic Study. ChemElectroChem, 10 (18): e202300235. ISSN 2196-0216

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Abstract

The oxygen evolution reaction (OER) as one half‐cell reaction of electrochemical water splitting has a fundamental impact on water splitting efficiency and thus on the competitiveness of electrochemically generated hydrogen in the energy market. Nickel‐iron layered double hydroxides (NiFe LDH) are among the most promising electrocatalysts for efficient OER under alkaline conditions. Despite intensive research, correlations of the material properties and the resulting kinetically limiting surface processes are poorly investigated. This work focuses on the kinetic behavior of NiFe LDH catalysts containing different anions in the basal spacing in alkaline OER. Steady‐state Tafel plots, impedance measurements as well as reaction order plots were used to elucidate differences in the catalytic performance. All catalysts showed a dual Tafel behavior and fractional reaction orders. For kinetic modelling, the physisorbed hydrogen peroxide mechanism and Temkin adsorption model were adopted to fit experimental data. Our study showed that the intercalated anions affect the kinetics of rate determining steps. The hypophosphite intercalated LDH possessed the highest OER activity and the first step as rate determining. While for both carbonate and borate intercalated NiFe LDH, the second step proved to be rate determining in the low Tafel region, while the first step was found to be rate‐limiting in the high Tafel region.

Item Type:
Journal Article
Journal or Publication Title:
ChemElectroChem
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1600/1603
Subjects:
?? electrokinetic studyoxygen evolution reactionnickel-iron layered double hydroxidesimpedance spectroscopyanionic exchangeelectrochemistrycatalysis ??
ID Code:
201236
Deposited By:
Deposited On:
11 Aug 2023 10:45
Refereed?:
Yes
Published?:
Published
Last Modified:
16 Jul 2024 00:03