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Manipulating the Second Coordination Shell of Single-Atom Fe for Enhanced Fenton Reaction.


ABSTRACT: While current methods use oxidizable metals as electron donors to effectively reduce Fe3+, they suffer from the irreversible oxidation of these metals, ultimately compromising the catalyst's longevity. To address this challenge, we engineered the second coordination shell of a single-atom Fe center by doping boron (B) onto a graphene-based support (Fe1/B-graphene) and utilized H2O2 as the electron source for efficient Fe2+ regeneration. Experimental results, supported by theoretical calculations, revealed that the Fe-O-B motif functions like a micro galvanic cell, with intermediary O atoms facilitating electron transfer between electrodes. Specifically, electrons consumed during H2O2 activation at Fe1 sites (positive electrode) are replenished by electrons extracted from H2O2 at B atoms (negative electrode), where the activation energy for H2O2 oxidation is significantly lower than that at Fe1 sites. This study offers inspirational insights into the design of Fenton catalysts through precise regulation of the second coordination shell, demonstrating the potential of tailoring the outer coordination environment of single-atom catalysts to enhance catalytic performance across various reactions.

SUBMITTER: Huang D 

PROVIDER: S-EPMC12858043 | biostudies-literature | 2026 Jan

REPOSITORIES: biostudies-literature

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Manipulating the Second Coordination Shell of Single-Atom Fe for Enhanced Fenton Reaction.

Huang Dahong D   Wang Wei W   Rigby Kali K   Wang Xiaoxiong X   Chen Jiejie J   Liu Jia J   Niu Junfeng J   Stavitski Eli E   Kim Jae-Hong JH  

ACS nano 20251229 1


While current methods use oxidizable metals as electron donors to effectively reduce Fe<sup>3+</sup>, they suffer from the irreversible oxidation of these metals, ultimately compromising the catalyst's longevity. To address this challenge, we engineered the second coordination shell of a single-atom Fe center by doping boron (B) onto a graphene-based support (Fe<sub>1</sub>/B-graphene) and utilized H<sub>2</sub>O<sub>2</sub> as the electron source for efficient Fe<sup>2+</sup> regeneration. Expe  ...[more]

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