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Ultrafine Pt<sub>3</sub>Fe Intermetallic Electrocatalysts Formed by Ultrafast Joule Heating toward Ethanol Oxidation

Mingxing Nie, Zijian Wang, Donglin He, Wei Gan, Qunhui Yuan

2024ACS Sustainable Chemistry & Engineering10 citationsDOI

Abstract

Ordered intermetallic nanocrystals display great potential for fuel cells due to their distinctive electronic and structural properties. However, the traditional synthesis usually involves long-time annealing at high temperature or surfactant/reductant with antiaggregation property, leading to decreased electrocatalytic performance. Herein, an ultrafast and surfactant-free synthesis of ordered sub–5-nm Pt 3 Fe nanocrystal-based electrocatalysts was reported (O–Pt 3 Fe/rGO). Through Joule heating, Pt 3 Fe nanocrystals were formed in situ on reduced graphene oxide within dozens of seconds. The modulation of the ordered or disordered structure of the Pt 3 Fe alloys could also be achieved by the simple adjustment of experimental parameters. O–Pt 3 Fe/rGO with a unique structure shows a superior mass activity of 5.66 A mg –1 toward ethanol oxidation reactions (EOR), which is 7.1 and 2.5 times higher than the values of the benchmark Pt/C and the counterpart catalysts containing disordered Pt 3 Fe nanoalloys (D-Pt 3 Fe/rGO). O–Pt 3 Fe/rGO also demonstrates superb long-term stability, retaining ∼80.7% of its original mass activity after electrochemical aging. Density functional theory (DFT) calculations reveal that the catalysts with ordered Pt 3 Fe show downshifted d-band center, weakened CO adsorption, enhanced OH adsorption, and improved C–C cleavage capability compared with the one with disordered Pt 3 Fe. This study provides a new perspective for the efficient synthesis of highly ordered intermetallic compound catalysts for energy conversion.

Topics & Concepts

IntermetallicMaterials scienceJoule heatingEthanolChemical engineeringMetallurgyCatalysisOxidizing agentInorganic chemistryChemistryComposite materialOrganic chemistryAlloyEngineeringElectrocatalysts for Energy ConversionFuel Cells and Related MaterialsElectrochemical Analysis and Applications