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Pt Nanoparticles Decorated on Fe2O3/N, P-Doped Mesoporous Carbon for Enhanced Oxygen Reduction Activity and Durability

Sabarinathan Ravichandran, Narayanamoorthy Bhuvanendran, Kai Peng, Weiqi Zhang, Qian Xu, Huaneng Su

2020Journal of Electrochemical Energy Conversion and Storage13 citationsDOI

Abstract

Abstract The Pt–Fe2O3 nanoparticles embedded over N, P-doped carbon (Pt–Fe2O3/NPC) was successfully synthesized by chemical reduction method demonstrating an enhanced electrocatalytic efficacy in alkaline media toward oxygen reduction reaction (ORR). The surface morphology of Pt–Fe2O3/NPC has been characterized by electron microscopy scanning, X-ray diffraction, electron microscopy transmission, Raman spectra, and X-ray photoelectron spectroscopy. The ORR electrocatalytic activity of Pt–Fe2O3/NPC was found to be the superior mass activity of 0.120 mA µg−1, which are almost twice higher than those for Pt–Fe2O3/VC (0.068 mA µg−1) and Pt/C (0.061 mA µg−1) catalysts. The durability tests revealed that the Pt–Fe2O3/NPC exhibited enhanced stability observed from the order of electrochemical active surface area (ECA) loss determined as Pt–Fe2O3/NPC (45.67%) <Pt–Fe2O3/VC (62.5%) <(Pt/C (72.13%) after 5000 cycles. This present investigation unveiled a facile approach to develop the number of active sites with the combination between P–Fe2O3 and N, P-doped carbon for improved electrocatalytic performance toward ORR.

Topics & Concepts

X-ray photoelectron spectroscopyScanning electron microscopeRaman spectroscopyCatalysisTransmission electron microscopyMesoporous materialNuclear chemistryMaterials scienceElectrochemistryCarbon fibersNanoparticleChemistryChemical engineeringNanotechnologyElectrodeComposite numberOrganic chemistryPhysical chemistryComposite materialOpticsEngineeringPhysicsElectrocatalysts for Energy ConversionFuel Cells and Related MaterialsConducting polymers and applications
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