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Structure‐Performance Relationship of LaFe<sub>1‐x</sub>Co<sub>x</sub>O<sub>3</sub> Electrocatalysts for Oxygen Evolution, Isopropanol Oxidation, and Glycerol Oxidation

Ann Cathrin Brix, Maik Dreyer, Adarsh Koul, Moritz Krebs, Anna Rabe, Ulrich Hagemann, Swapnil Varhade, Corina Andronescu, Malte Behrens, Wolfgang Schuhmann, Dulce M. Morales

2022ChemElectroChem25 citationsDOIOpen Access PDF

Abstract

Abstract Mitigating high energy costs related to sustainable H 2 production via water electrolysis is important to make this process commercially viable. Possible approaches are the investigation of low‐cost, highly active oxygen evolution reaction (OER) catalysts and the exploration of alternative anode reactions, such as the electrocatalytic isopropanol oxidation reaction (iPOR) or the glycerol oxidation reaction (GOR), offering the possibility of simultaneously lowering the anodic overpotential and generating value‐added products. A suitable class of catalysts are non‐noble metal‐based perovskites with the general formula ABO 3 , featuring rare‐earth metal cations at the A‐ and transition metals at the B‐site. We synthesised a series of LaFe 1‐x Co x O 3 materials with x=0–0.70 by automated co‐precipitation at constant pH and subsequent calcination at 800 °C. X‐ray diffraction studies revealed that the phase purity was preserved in samples with x≤0.3. The activity towards the OER, iPOR, and GOR was investigated by rotating disk electrode voltammetry, showing a relation between structure and metal composition with the activity trends observed for the three reactions. Additionally, GOR product analysis via high‐performance liquid chromatography (HPLC) was conducted after 24 and 48 h electrolysis in a circular flow‐through cell setup, pointing out a trade‐off between activity and selectivity.

Topics & Concepts

Oxygen evolutionOverpotentialCalcinationCatalysisElectrolysisInorganic chemistryElectrocatalystBulk electrolysisChemistryDisproportionationNoble metalCyclic voltammetryMaterials scienceElectrochemistryPhysical chemistryElectrodeOrganic chemistryElectrolyteElectrocatalysts for Energy ConversionAdvanced battery technologies researchElectrochemical Analysis and Applications