Enhancing the ORR activity of fullerene-derived carbons by implanting Fe in assembled diamine-C60 spheres

Bohong Jiang; Suwei Wang; Fancang Meng; Li Ju; Wei Jiang; Qingmin Ji; Heng Dao Quan

doi:10.1039/d2ce00737a

Enhancing the ORR activity of fullerene-derived carbons by implanting Fe in assembled diamine-C₆₀ spheres

Bohong Jiang, Suwei Wang, Fancang Meng, Li Ju, Wei Jiang^*, Qingmin Ji^*, Heng Dao Quan

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Nanjing University of Science and Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Fullerene-derived carbons have been demonstrated as effective electrode materials for electrocatalytic reactions. The rational arrangement of heteroatoms in the carbon structure is essential to yield high catalytic activity. Herein, assembled diamine-C₆₀ spheres (N@FSs) were fabricated and used to control the implanting of Fe components. The confinement effect from fullerene superstructures and the strengthened binding of Fe ions by the amine groups ensure the formation of porous carbon spheres (FeN@FCSs) with a high doping amount of Fe and N simultaneously. Due to the homogeneous distribution of Fe-N components in the carbons, FeN@FCSs exhibited much enhanced electrocatalytic activity for the oxygen reduction reaction (ORR) compared to fullerene carbons without doping. The performance is also comparable to that of a commercial Pt/C (20 wt%) catalyst.

Original language	English
Pages (from-to)	5783-5791
Number of pages	9
Journal	CrystEngComm
Volume	24
Issue number	32
DOIs	https://doi.org/10.1039/d2ce00737a
Publication status	Published - 20 Jul 2022

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abstract = "Fullerene-derived carbons have been demonstrated as effective electrode materials for electrocatalytic reactions. The rational arrangement of heteroatoms in the carbon structure is essential to yield high catalytic activity. Herein, assembled diamine-C60 spheres (N@FSs) were fabricated and used to control the implanting of Fe components. The confinement effect from fullerene superstructures and the strengthened binding of Fe ions by the amine groups ensure the formation of porous carbon spheres (FeN@FCSs) with a high doping amount of Fe and N simultaneously. Due to the homogeneous distribution of Fe-N components in the carbons, FeN@FCSs exhibited much enhanced electrocatalytic activity for the oxygen reduction reaction (ORR) compared to fullerene carbons without doping. The performance is also comparable to that of a commercial Pt/C (20 wt%) catalyst.",

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AU - Jiang, Bohong

AU - Wang, Suwei

AU - Meng, Fancang

AU - Ju, Li

AU - Jiang, Wei

AU - Ji, Qingmin

AU - Quan, Heng Dao

PY - 2022/7/20

Y1 - 2022/7/20

N2 - Fullerene-derived carbons have been demonstrated as effective electrode materials for electrocatalytic reactions. The rational arrangement of heteroatoms in the carbon structure is essential to yield high catalytic activity. Herein, assembled diamine-C60 spheres (N@FSs) were fabricated and used to control the implanting of Fe components. The confinement effect from fullerene superstructures and the strengthened binding of Fe ions by the amine groups ensure the formation of porous carbon spheres (FeN@FCSs) with a high doping amount of Fe and N simultaneously. Due to the homogeneous distribution of Fe-N components in the carbons, FeN@FCSs exhibited much enhanced electrocatalytic activity for the oxygen reduction reaction (ORR) compared to fullerene carbons without doping. The performance is also comparable to that of a commercial Pt/C (20 wt%) catalyst.

AB - Fullerene-derived carbons have been demonstrated as effective electrode materials for electrocatalytic reactions. The rational arrangement of heteroatoms in the carbon structure is essential to yield high catalytic activity. Herein, assembled diamine-C60 spheres (N@FSs) were fabricated and used to control the implanting of Fe components. The confinement effect from fullerene superstructures and the strengthened binding of Fe ions by the amine groups ensure the formation of porous carbon spheres (FeN@FCSs) with a high doping amount of Fe and N simultaneously. Due to the homogeneous distribution of Fe-N components in the carbons, FeN@FCSs exhibited much enhanced electrocatalytic activity for the oxygen reduction reaction (ORR) compared to fullerene carbons without doping. The performance is also comparable to that of a commercial Pt/C (20 wt%) catalyst.

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Enhancing the ORR activity of fullerene-derived carbons by implanting Fe in assembled diamine-C₆₀ spheres

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