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Single-Atom Catalysts for Selective Oxygen Reduction: Transition Metals in Uniform Carbon Nanospheres with High Loadings

Jacob Jeskey, Yong Ding, Yidan Chen, Zachary D. Hood, George E. Sterbinsky, Mietek Jaroniec, Younan Xia

2023JACS Au18 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Transition metal single-atom catalysts (SACs) in uniform carbon nanospheres have gained tremendous interest as electrocatalysts owing to their low cost, high activity, and excellent selectivity. However, their preparation typically involves complicated multistep processes that are not practical for industrial use. Herein, we report a facile one-pot method to produce atomically isolated metal atoms with high loadings in uniform carbon nanospheres without any templates or postsynthesis modifications. Specifically, we use a chemical confinement strategy to suppress the formation of metal nanoparticles by introducing ethylenediaminetetraacetic acid (EDTA) as a molecular barrier to spatially isolate the metal atoms and thus generate SACs. To demonstrate the versatility of this synthetic method, we produced SACs from multiple transition metals, including Fe, Co, Cu, and Ni, with loadings as high as 3.87 wt %. Among these catalytic materials, the Fe-based SACs showed remarkable catalytic activity toward the oxygen reduction reaction (ORR), achieving an onset and half-wave potential of 1.00 and 0.831 V RHE, respectively, comparable to that of commercial 20 wt % Pt/C. Significantly, we were able to steer the ORR selectivity toward either energy generation or hydrogen peroxide production by simply changing the transition metal in the EDTA-based precursor.

Topics & Concepts

CatalysisEthylenediaminetetraacetic acidTransition metalSelectivityCarbon fibersHydrogen peroxideMetalMaterials scienceNanoparticleChemical engineeringNanotechnologyChemistryInorganic chemistryChelationMetallurgyOrganic chemistryComposite materialEngineeringComposite numberElectrocatalysts for Energy ConversionCatalytic Processes in Materials ScienceNanomaterials for catalytic reactions
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