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Lattice Strain and Composition Effects on the Methanol Oxidation Performance of Platinum–Ruthenium–Nickel Ternary Nanocatalysts

Tai Thien Huynh, Quyen Huynh, Qui Van Nguyen, Hau Quoc Pham

2023Inorganic Chemistry56 citationsDOI

Abstract

Ternary Pt-based structures are a positive progress in addressing the disadvantages of monometallic and bimetallic Pt-based alloys for the electrochemical oxidation process of simple alcohols, which is a vital half-reaction in fuel cell technologies. We herein report a facile NaBH 4 -assisted ethylene glycol reduction process for fabricating a series of nanosized PtRuNi ternary alloys to explore the relationship between physicochemical properties and electrocatalytic behaviors for the acidic methanol oxidation reaction (MOR). Owing to a balance between lattice strain and synergistic effects, the Pt 60 Ru 20 Ni 20 /C electrocatalyst shows the highest MOR efficiency with the mass activity/specific activity of 844.48 mA mg Metal –1 /1.93 mA cm –2, being a 1.94 and 2.38 times increase compared to those of the PtRu catalyst, respectively. Also, the Pt 60 Ru 20 Ni 20 /C catalyst possesses superior CO-tolerance and durability in strongly acidic electrolytes. This work suggests that optimizing the surface strain and electronic effects can boost the overall MOR efficiency of multicomponent Pt-based materials, which can help to further develop next-generation catalysts for energy conversion-related technologies.

Topics & Concepts

ChemistryNanomaterial-based catalystBimetallic stripElectrocatalystCatalysisTernary operationMethanolPlatinumEthylene glycolElectrochemistryChemical engineeringRutheniumInorganic chemistryNickelElectrodePhysical chemistryOrganic chemistryComputer scienceProgramming languageEngineeringElectrocatalysts for Energy ConversionCatalytic Processes in Materials ScienceFuel Cells and Related Materials
Lattice Strain and Composition Effects on the Methanol Oxidation Performance of Platinum–Ruthenium–Nickel Ternary Nanocatalysts | Litcius