Electron Transfer from Encapsulated Fe 3 C to the Outermost Ndoped Carbon Layer for Superior ORR - Université de Lorraine
Article Dans Une Revue Advanced Functional Materials Année : 2024

Electron Transfer from Encapsulated Fe 3 C to the Outermost Ndoped Carbon Layer for Superior ORR

Javier Quílez-Bermejo
Andrea Zitolo
Jimena Castro-Gutiérrez
Mélanie Emo
Maria Izquierdo
William Mustain
Vanessa Fierro
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Résumé

Abstract Encapsulating Fe 3 C in carbon layers has emerged as an innovative strategy for protecting Fe 3 C while preserving its high oxygen reduction activity. However, fundamental questions persist regarding the active sites of encapsulated Fe 3 C due to the restricted accessibility of oxygen molecules to the metal sites. Herein, the intrinsic electron transfer mechanisms of Fe 3 C nanoparticles encapsulated in N‐doped carbon materials are unveiled for oxygen reduction electrocatalysis. The precision‐structured C 1 N 1 material is used to synthesize N‐doped carbons with encapsulated Fe 3 C, significantly enhancing catalytic activity (E ONSET = 0.98 V) and achieving near‐100% operational stability. In anion‐exchange membrane fuel cells, an excellent peak power density of 830 mW cm −2 is reached at 60 °C. The experimental and computational results revealed that the presence of Fe 3 C cores dynamically triggers electron transfer to the outermost carbon layer. This phenomenon amplifies the oxygen reduction reaction performance at N sites, contributing significantly to the observed catalytic enhancement.
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Dates et versions

hal-04573050 , version 1 (13-05-2024)

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Javier Quílez-Bermejo, Ayoub Daouli, Sergio García Dalí, Yingdan Cui, Andrea Zitolo, et al.. Electron Transfer from Encapsulated Fe 3 C to the Outermost Ndoped Carbon Layer for Superior ORR. Advanced Functional Materials, inPress, ⟨10.1002/adfm.202403810⟩. ⟨hal-04573050⟩
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