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Carbide-Supported PtRu Catalysts for Hydrogen Oxidation Reaction in Alkaline Electrolyte

Eliran R. Hamo, Ramesh K. Singh, John C. Douglin, Sian Chen, Mohamed Ben Hassine, Enrique Carbó‐Argibay, Shanfu Lu, Haining Wang, Paulo J. Ferreira, Brian A. Rosen, Dario R. Dekel

2021ACS Catalysis110 citationsDOI

Abstract

Owing to the sluggish kinetics of the hydrogen oxidation reaction (HOR) in alkaline electrolyte, it is considered a limiting reaction for the development of anion-exchange membrane fuel cell (AEMFC) technology. Studies of alkaline HOR catalysis mainly focus on carbon-supported nanoparticles, which have weak metal–support interactions. In this contribution, we present a unique support based on transition metal carbides (TMCs = Mo2C, Mo2C–TaC, and Mo2C–W2C) for the HOR. PtRu nanoparticles are deposited onto the TMC supports and are characterized by a variety of analytical techniques. The major findings are (i) experimental and theoretical evidence for strong-metal support interaction by both X-ray absorption near-edge structure and density functional theory, (ii) the kinetic current density (jk,s) @25 mV of PtRu/Mo2C–TaC catalyst are 1.65 and 1.50 times higher than that of PtRu/Mo2C and PtRu/Mo2C–W2C, respectively, and (iii) enhanced “tethering” of PtRu nanoparticles on TMC supports. Furthermore, the AEMFC based on the PtRu/Mo2C–TaC anode exhibited a peak power density of 1.2 W cm–2 @70 °C, opening the doors for the development of advanced catalysts based on engineering support materials.

Topics & Concepts

CatalysisElectrolyteNanoparticleChemistryInorganic chemistryTransition metalExchange current densityCarbideChemical engineeringAlkaline fuel cellHydrogenAnodeElectrochemistryMaterials scienceNanotechnologyElectrodePhysical chemistryOrganic chemistryEngineeringTafel equationElectrocatalysts for Energy ConversionFuel Cells and Related MaterialsCatalytic Processes in Materials Science
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