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Prompt template-free synthesis of porous PtPb sponge-like nanostructure for electro-oxidation of methanol and carbon monoxide

Ruonan Jin, Qingqing Lu, Junjie Liao, Yuzhou Zhu, Tao Huang, Wenhui Wang, Yuheng Wu, Hamilton Varela, Kamel Eid

2024Electrochimica Acta11 citationsDOIOpen Access PDF

Abstract

Porous Pt-based alloys entail earth-abundant and low-cost metal, not only contribute to the rational consumption of expensive and rare Pt metal but also the enhancement of its activity towards the methanol electro-oxidation reaction (MEOR). Herein, a porous sponge-like PtPb alloy was synthesized by using the ice-reduction method driven by the coalescence growth mechanism under the intensive reduction power of borohydride . The presented PtPb sponge nanostructure was prepared using a facile, one-step method without heating or surfactants . Meanwhile, PtPb had a sponge-like shape with accessible active sites, a high surface area , abundant pore volume (0.05 cm 3 /g), pore size (2–20 nm), Pb loading (13.0 at.%), and an upshifted d-band center of Pt. These inimitable structural and compositional merits endow the electro-oxidation of methanol with a higher mass (specific) activity of 0.907 mA/µg Pt (5.7 mA/cm 2 ) compared to those of Pt sponge-like nanostructure and Pt/C catalyst by 1.47 (1.35) and 1.72 (8.51) times, respectively, besides higher durability. Moreover, PtPb had higher activity and durability towards the electro-oxidation of carbon monoxide (CO) than Pt and Pt/C. The proposed study may provide new insights into the simple synthesis of a Pt-based alloy for the electrocatalytic oxidation of small organic molecules.

Topics & Concepts

Carbon monoxideMethanolPorosityNanostructureChemical engineeringMaterials scienceChemistryInorganic chemistryNanotechnologyCatalysisOrganic chemistryEngineeringElectrocatalysts for Energy ConversionElectrochemical Analysis and ApplicationsFuel Cells and Related Materials
Prompt template-free synthesis of porous PtPb sponge-like nanostructure for electro-oxidation of methanol and carbon monoxide | Litcius