Role of Electrode Thickness in NiFe Nanogranular Films for Oxygen Evolution Reaction

Luca Gavioli*, Luca Ciambriello, Irene Vassalini, Emanuele Cavaliere, Ivano Alessandri, Matteo Ferroni, Luca Leoncino, Rosaria Brescia

*Autore corrispondente per questo lavoro

Risultato della ricerca: Contributo in rivistaArticolo in rivista

Abstract

Nanostructured materials may provide a route to overcome the electrode-limiting performance in water splitting, the oxygen evolution reaction (OER), within the framework of low-cost catalysts search. However, for alloyed NiFe nanostructures, the relationship among the OER efficiency and the electrode physical characteristics (morphology, porosity, size, thickness, or mass loading) is largely unknown. This work introduces a new type of alloyed NiFe (90/10% at) nanogranular electrodes obtained by supersonic cluster beam deposition and investigates the dependence of their catalytic activity toward the OER on the film morphological and stoichiometric properties. The synthesized alloyed NiFe nanoparticles with 0.3-3.8 nm size assemble from the gas phase to form ultrathin film electrodes with thickness in the 15-88 nm range, corresponding to 5-30 mu g/cm2 mass loading. The fitting of the optical spectroscopic data by an effective medium approximation model suggests that, independent of the thickness, the films have a 20% porosity and are completely hydroxydated. The resulting catalytic efficiency is independent on the film thickness, while the turnover frequency decreases with increasing electrode loading. These data suggest that an excess of catalyst mass with respect to the OER active sites is deposited in the case of thicker electrodes and sets the 15 nm film as an upper loading limit to maximize the electrocatalyst efficiency. This study represents a crucial step toward thickness optimization of NiFe electrodes to fabricate low-cost OER catalysts.
Lingua originaleEnglish
pagine (da-a)21759-21770
Numero di pagine12
RivistaJOURNAL OF PHYSICAL CHEMISTRY. C
Volume126
DOI
Stato di pubblicazionePubblicato - 2022

Keywords

  • Nanogranular materials, NiFe alloyed nanoparticles, electrodes for oxygen evolution reaction, Hydrogen

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