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Pd-Ru pair on Pt surface for promoting hydrogen oxidation and evolution in alkaline media

Longsheng Cao, Fernando A. Soto, Dan Li, Tao Deng, Enyuan Hu, Xiner Lu, David A. Cullen, Nico Eidson, Xiao‐Qing Yang, Kai He, Perla B. Balbuena, Chunsheng Wang

2024Nature Communications25 citationsDOIOpen Access PDF

Abstract

Hydrogen oxidation reaction in alkaline media is critical for alkaline fuel cells and electrochemical ammonia compressors. The slow hydrogen oxidation reaction in alkaline electrolytes requires large amounts of scarce and expensive platinum catalysts. While transition metal decoration can enhance Pt catalysts’ activity, it often reduces the electrochemical active surface area, limiting the improvement in Pt mass activity. Here, we enhance Pt catalysts’ activity without losing surface-active sites by using a Pd-Ru pair. Utilizing a mildly catalytic thermal pyrolysis approach, Pd-Ru pairs are decorated on Pt, confirmed by extended X-ray absorption fine structure and high-angle annular dark-field scanning transmission electron microscopy. Density functional theory and ab-initio molecular dynamics simulations indicate preferred Pd and Ru dopant adsorption. The Pd-Ru decorated Pt catalyst exhibits a mass-based exchange current density of 1557 ± 85 A g−1metal for hydrogen oxidation reaction, demonstrating superior performance in an ammonia compressor. Hydrogen oxidation in alkaline media is vital for fuel cells and ammonia compressors but typically requires costly platinum catalysts. Here the authors report a Pd-Ru pair decorated on Pt to enhance the mass activity of noble-metal for hydrogen oxidation reactions.

Topics & Concepts

CatalysisPlatinumInorganic chemistryElectrochemistryTransition metalHydrogenLimiting currentRedoxChemistryExchange current densityMaterials scienceAdsorptionChemical engineeringPhysical chemistryElectrodeTafel equationOrganic chemistryEngineeringElectrocatalysts for Energy ConversionAmmonia Synthesis and Nitrogen ReductionCatalytic Processes in Materials Science
Pd-Ru pair on Pt surface for promoting hydrogen oxidation and evolution in alkaline media | Litcius