Efficient Electrochemical N2 Fixation over Donor–Acceptor FeEu─N4 Active Site

Zhiya Han; Shiyu Zhang; Yiting Xu; Na He; Jiayin Yang; Shuqi Wang; Huiting Ni; Wenkai Xie; Fengyuan Wang; Chao Li; Liping Tong; Wenda Li; Boxu Feng; Senhe Huang; Gaijuan Guo; Sheng Han; Miaosen Yang; Shaohua Liu

doi:10.1002/smtd.202500828

Efficient Electrochemical N₂ Fixation over Donor–Acceptor FeEu─N₄ Active Site

Zhiya Han^*
, Shiyu Zhang
, Yiting Xu
, Na He
, Jiayin Yang
, Shuqi Wang
, Huiting Ni
, Wenkai Xie
, Fengyuan Wang
, Chao Li
, Liping Tong
, Wenda Li
, Boxu Feng
, Senhe Huang
, Gaijuan Guo
, Sheng Han
, Miaosen Yang^*
, Shaohua Liu^*

^*此作品的通讯作者

物理与电子科学学院

Shanghai Dianji University
East China University of Science and Technology
East China Normal University
Shanghai Jiao Tong University
Shanghai Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Electrocatalytic nitrogen reduction reaction (NRR) represents a promising approach to sustainable ammonia production, but the low Faradaic efficiency (FE) and poor ammonia yield rate limit its practical application. This work demonstrates an innovative FeEu─NC catalyst that leverages distinct donor–acceptor electron pairs between Fe and Eu atoms to significantly enhance the electrocatalytic NRR. The FeEu─NC catalyst demonstrates an outstanding ammonia yield of 221.6 µg h⁻¹mg_cat⁻¹ and a Faradaic efficiency of 61.1%, surpassing most previously reported NRR catalysts. Comprehensive experimental characterization indicates that electron transfer from Eu to Fe atoms weakens the N≡N bond, enhances N₂ activation, and reduces the energy barrier of the potential-determining step, compared to Fe─NC. Furthermore, the difference in limiting potentials between the hydrogen evolution reaction (HER) and NRR suggests that the FeEu─NC catalyst prioritizes NRR over HER, enhancing its efficiency for ammonia synthesis. This work provides a blueprint for constructing highly active and selective electrocatalysts by exploiting intermetallic electron transfer, offering significant insights into the design of efficient electrochemical nitrogen fixation systems.

源语言	英语
文章编号	2500828
期刊	Small Methods
卷	10
期	2
DOI	https://doi.org/10.1002/smtd.202500828
出版状态	已出版 - 22 1月 2026

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10.1002/smtd.202500828

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title = "Efficient Electrochemical N2 Fixation over Donor–Acceptor FeEu─N4 Active Site",

abstract = "Electrocatalytic nitrogen reduction reaction (NRR) represents a promising approach to sustainable ammonia production, but the low Faradaic efficiency (FE) and poor ammonia yield rate limit its practical application. This work demonstrates an innovative FeEu─NC catalyst that leverages distinct donor–acceptor electron pairs between Fe and Eu atoms to significantly enhance the electrocatalytic NRR. The FeEu─NC catalyst demonstrates an outstanding ammonia yield of 221.6 µg h−1mgcat−1 and a Faradaic efficiency of 61.1\%, surpassing most previously reported NRR catalysts. Comprehensive experimental characterization indicates that electron transfer from Eu to Fe atoms weakens the N≡N bond, enhances N2 activation, and reduces the energy barrier of the potential-determining step, compared to Fe─NC. Furthermore, the difference in limiting potentials between the hydrogen evolution reaction (HER) and NRR suggests that the FeEu─NC catalyst prioritizes NRR over HER, enhancing its efficiency for ammonia synthesis. This work provides a blueprint for constructing highly active and selective electrocatalysts by exploiting intermetallic electron transfer, offering significant insights into the design of efficient electrochemical nitrogen fixation systems.",

keywords = "In situ characterizations, donor–acceptor, dual-single atoms, electrocatalytic nitrogen reduction reactions",

author = "Zhiya Han and Shiyu Zhang and Yiting Xu and Na He and Jiayin Yang and Shuqi Wang and Huiting Ni and Wenkai Xie and Fengyuan Wang and Chao Li and Liping Tong and Wenda Li and Boxu Feng and Senhe Huang and Gaijuan Guo and Sheng Han and Miaosen Yang and Shaohua Liu",

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year = "2026",

month = jan,

day = "22",

doi = "10.1002/smtd.202500828",

language = "英语",

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T1 - Efficient Electrochemical N2 Fixation over Donor–Acceptor FeEu─N4 Active Site

AU - Han, Zhiya

AU - Zhang, Shiyu

AU - Xu, Yiting

AU - He, Na

AU - Yang, Jiayin

AU - Wang, Shuqi

AU - Ni, Huiting

AU - Xie, Wenkai

AU - Wang, Fengyuan

AU - Li, Chao

AU - Tong, Liping

AU - Li, Wenda

AU - Feng, Boxu

AU - Huang, Senhe

AU - Guo, Gaijuan

AU - Han, Sheng

AU - Yang, Miaosen

AU - Liu, Shaohua

PY - 2026/1/22

Y1 - 2026/1/22

N2 - Electrocatalytic nitrogen reduction reaction (NRR) represents a promising approach to sustainable ammonia production, but the low Faradaic efficiency (FE) and poor ammonia yield rate limit its practical application. This work demonstrates an innovative FeEu─NC catalyst that leverages distinct donor–acceptor electron pairs between Fe and Eu atoms to significantly enhance the electrocatalytic NRR. The FeEu─NC catalyst demonstrates an outstanding ammonia yield of 221.6 µg h−1mgcat−1 and a Faradaic efficiency of 61.1%, surpassing most previously reported NRR catalysts. Comprehensive experimental characterization indicates that electron transfer from Eu to Fe atoms weakens the N≡N bond, enhances N2 activation, and reduces the energy barrier of the potential-determining step, compared to Fe─NC. Furthermore, the difference in limiting potentials between the hydrogen evolution reaction (HER) and NRR suggests that the FeEu─NC catalyst prioritizes NRR over HER, enhancing its efficiency for ammonia synthesis. This work provides a blueprint for constructing highly active and selective electrocatalysts by exploiting intermetallic electron transfer, offering significant insights into the design of efficient electrochemical nitrogen fixation systems.

AB - Electrocatalytic nitrogen reduction reaction (NRR) represents a promising approach to sustainable ammonia production, but the low Faradaic efficiency (FE) and poor ammonia yield rate limit its practical application. This work demonstrates an innovative FeEu─NC catalyst that leverages distinct donor–acceptor electron pairs between Fe and Eu atoms to significantly enhance the electrocatalytic NRR. The FeEu─NC catalyst demonstrates an outstanding ammonia yield of 221.6 µg h−1mgcat−1 and a Faradaic efficiency of 61.1%, surpassing most previously reported NRR catalysts. Comprehensive experimental characterization indicates that electron transfer from Eu to Fe atoms weakens the N≡N bond, enhances N2 activation, and reduces the energy barrier of the potential-determining step, compared to Fe─NC. Furthermore, the difference in limiting potentials between the hydrogen evolution reaction (HER) and NRR suggests that the FeEu─NC catalyst prioritizes NRR over HER, enhancing its efficiency for ammonia synthesis. This work provides a blueprint for constructing highly active and selective electrocatalysts by exploiting intermetallic electron transfer, offering significant insights into the design of efficient electrochemical nitrogen fixation systems.

KW - In situ characterizations

KW - donor–acceptor

KW - dual-single atoms

KW - electrocatalytic nitrogen reduction reactions

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U2 - 10.1002/smtd.202500828

DO - 10.1002/smtd.202500828

M3 - 文章

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SN - 2366-9608

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JO - Small Methods

JF - Small Methods

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ER -

Efficient Electrochemical N2 Fixation over Donor–Acceptor FeEu─N4 Active Site

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Efficient Electrochemical N₂ Fixation over Donor–Acceptor FeEu─N₄ Active Site