Experimental evidences of the direct influence of external magnetic fields on the mechanism of the electrocatalytic oxygen evolution reaction

Mesa, C. A.; Garcés-Pineda, F. A.; García-Tecedor, M.; Yu, J.; Khezri, B.; Plana-Ruiz, S.; López, B.; Iturbe, R.; López, N.; Gimenez, S.; Galan-Mascaros, J. R.

doi:10.1063/5.0179761

APL Energy

2024

DOI: 10.1063/5.0179761

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Experimental evidences of the direct influence of external magnetic fields on the mechanism of the electrocatalytic oxygen evolution reaction

C. A. Mesa,

F. A. Garcés-Pineda,

M. García-Tecedor

et al.

Abstract: The use of magnetic fields as external stimuli to improve the kinetics of electrochemical reactions is attracting substantial attention, given their potential to reduce energy losses. Despite recent reports showing a positive effect on catalytic performance upon applying a magnetic field to a working electrode, there are still many uncertainties and a lack of experimental evidence correlating the presence of the magnetic field to the electrocatalytic performance. Here, we present a combination of electrochemic… Show more

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Cited by 1 publication

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Current‐Dependent Product Distribution and Reaction Mechanisms of Glycerol Electrooxidation on Nickel

Ng,

Mesa,

Más‐Marzá

et al. 2024

ChemElectroChem

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The Glycerol Electrooxidation Reaction (GEOR) is a promising alternative to oxygen evolution in electrochemical processes like hydrogen production and CO2 reduction. Although GEOR has attracted increasing attention, its oxidation kinetics in alkaline media are not well understood. In this study, electrochemical characterization and kinetic analysis were conducted using nickel foil as the electrocatalyst. Four galvanostatic conditions (1, 3, 5, and 10 mA cm−2) were evaluated to study product distribution. Increasing the current density from 3 to 5 mA cm−2 led to a fivefold decrease in formate production, indicating a shift in GEOR selectivity within the Oxygen Evolution Reaction (OER) region. At 10 mA cm−2, formate remained as major product, followed by glycolate and glycerate, while tartronate and oxalate production were significantly inhibited, reducing the total Faradaic Efficiency (FE) by half relative to 5 mA cm−2. Rate constants showed increased kinetics for glycerate, glycolate, oxalate, and tartronate as current increased, surpassing formate production at 5 mA cm−2. Spectroelectrochemical measurements revealed the reaction order for GEOR (αGEOR ~1) and OER (αOER ~3), showing that GEOR proceeds via a more efficient oxidative pathway, requiring interaction with just one NiOOH species, while OER involves three highly oxidized Ni‐species.

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Current‐Dependent Product Distribution and Reaction Mechanisms of Glycerol Electrooxidation on Nickel

Ng,

Mesa,

Más‐Marzá

et al. 2024

ChemElectroChem

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show abstract

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Experimental evidences of the direct influence of external magnetic fields on the mechanism of the electrocatalytic oxygen evolution reaction

Cited by 1 publication

References 74 publications

Current‐Dependent Product Distribution and Reaction Mechanisms of Glycerol Electrooxidation on Nickel

Current‐Dependent Product Distribution and Reaction Mechanisms of Glycerol Electrooxidation on Nickel

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