Detection of a Nickel-Oxide Nanolayer During Mild Acid Treatment of Nickel Foam and Its Effect on Alkaline Oxygen Evolution and Ammonia Oxidation Reactions

Abstract: Despite nickel foam (NF) being often used as electrode support, the commonly adapted pretreatment strategy (high acid concentration and ultrasonication) may result in unnecessary surface oxidation, which may interfere with the electrochemical performance of the actual catalyst. Herein, acid-pretreatment of NF with 0.1 M HCl and ultrasonication (100 W ultrasonic power, 40 kHz frequency, 30 °C bath temperature) for a limited time (<20 min) is shown to be safe to avoid the formation of NiO nanoparticles. Although… Show more

“…To enhance ammonia production, 7 mg of Mo x @SnO 2 was deposited on a 1 cm 2 surface area of a nickel foam (NF) substrate and used as a working electrode to perform eNOR in a typical three-electrode cell. Before catalyst loading on the 1 cm 2 surface area of the NF, it was cleaned according to the literature procedure, and the Raman spectrum of the cleaned NF was recorded to ensure the surface integrity (Figure S34). The polarization curve obtained from the LSV study with Mo x @SnO 2 /NF and in the 0.5 M KNO 3 electrolyte showed two prominent redox features within 0.3 to −0.3 V and a dominant catalytic current after −0.4 V vs RHE indicative of eNOR (Figure a).…”

Vacancy-Rich SnO₂ Quantum Dot Stabilized by Polyoxomolybdate as Electrocatalyst for Selective NH₃ Production

“…To enhance ammonia production, 7 mg of Mo x @SnO 2 was deposited on a 1 cm 2 surface area of a nickel foam (NF) substrate and used as a working electrode to perform eNOR in a typical three-electrode cell. Before catalyst loading on the 1 cm 2 surface area of the NF, it was cleaned according to the literature procedure, and the Raman spectrum of the cleaned NF was recorded to ensure the surface integrity (Figure S34). The polarization curve obtained from the LSV study with Mo x @SnO 2 /NF and in the 0.5 M KNO 3 electrolyte showed two prominent redox features within 0.3 to −0.3 V and a dominant catalytic current after −0.4 V vs RHE indicative of eNOR (Figure a).…”

Vacancy-Rich SnO₂ Quantum Dot Stabilized by Polyoxomolybdate as Electrocatalyst for Selective NH₃ Production

Revealing Dynamic Surface and Subsurface Reconstruction of High-Entropy Alloy Electrocatalysts during the Oxygen Evolution Reaction at the Atomic Scale