Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction

Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction

Atomically dispersed single-atom catalysts are among the most attractive electrocatalysts for the CO2 reduction reaction (CRR). To elucidate the origin of the exceptional activity of atomically dispersed Fe-N-C catalyst in CRR, we have performed operando 57Fe Mössbauer spectroscopic studies on a mod...

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Main Authors: Li, Xuning, Zeng, Yaqiong, Tung, Ching-Wei, Lu, Ying-Rui, Baskaran, Sambath, Hung, Sung-Fu, Wang, Shifu, Xu, Cong-Qao, Wang, Junhu, Chan, Ting-Shan, Chen, Hao Ming, Jiang, Jianchao, Yu, Qi, Huang, Yanqiang, Li, Jun, Zhang, Tao, Liu, Bin
Other Authors: School of Chemical and Biomedical Engineering
Format: Article
Language:English
Published: 2022
Subjects:
Engineering::Chemical engineering
Electrochemistry
Single-Atom Catalyst
Online Access:https://hdl.handle.net/10356/159978
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1599782022-07-07T01:33:21Z Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction Li, Xuning Zeng, Yaqiong Tung, Ching-Wei Lu, Ying-Rui Baskaran, Sambath Hung, Sung-Fu Wang, Shifu Xu, Cong-Qao Wang, Junhu Chan, Ting-Shan Chen, Hao Ming Jiang, Jianchao Yu, Qi Huang, Yanqiang Li, Jun Zhang, Tao Liu, Bin School of Chemical and Biomedical Engineering Engineering::Chemical engineering Electrochemistry Single-Atom Catalyst Atomically dispersed single-atom catalysts are among the most attractive electrocatalysts for the CO2 reduction reaction (CRR). To elucidate the origin of the exceptional activity of atomically dispersed Fe-N-C catalyst in CRR, we have performed operando 57Fe Mössbauer spectroscopic studies on a model single-Fe-atom catalyst with a well-defined N coordination environment. Combining with operando X-ray absorption spectroscopy, the in situ-generated four pyrrolic nitrogen atom-coordinated low-spin Fe(I) (LS FeIN4) featuring monovalent iron is identified as the reactive center for the conversion of CO2 to CO. Furthermore, density functional theory calculations reveal that the optimal binding strength of CO2 to the LS FeIN4 site, with strong orbital interactions between the singly occupied dz2 orbital of the Fe(I) site and the singly occupied π∗ orbital of [COOH] fragment, is the key factor for the excellent CRR performance. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) This work was supported by the National Key Projects for Fundamental Research and Development of China (2016YFA0202804), the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB36030200), the National Natural Science Foundation of China (21925803, 22033005, and 22038002), the Ministry of Education of Singapore (AcRF Tier 1 RG4/20 and RG115/18 and AcRF Tier 2 T2EP10120-0009), and Agency for Science, Technol-ogy, and Research (A*Star AME IRG A20E5c0080). This work was partially sponsored by the Guangdong Provincial Key Laboratory of Catalysis (no. 2020B121201002). 2022-07-07T01:33:21Z 2022-07-07T01:33:21Z 2021 Journal Article Li, X., Zeng, Y., Tung, C., Lu, Y., Baskaran, S., Hung, S., Wang, S., Xu, C., Wang, J., Chan, T., Chen, H. M., Jiang, J., Yu, Q., Huang, Y., Li, J., Zhang, T. & Liu, B. (2021). Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction. ACS Catalysis, 11(12), 7292-7301. https://dx.doi.org/10.1021/acscatal.1c01621 2155-5435 https://hdl.handle.net/10356/159978 10.1021/acscatal.1c01621 2-s2.0-85108646100 12 11 7292 7301 en RG4/20 RG115/18 T2EP10120-0009 A20E5c0080 ACS Catalysis © 2021 American Chemical Society. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Chemical engineering
Electrochemistry
Single-Atom Catalyst
spellingShingle Engineering::Chemical engineering
Electrochemistry
Single-Atom Catalyst
Li, Xuning
Zeng, Yaqiong
Tung, Ching-Wei
Lu, Ying-Rui
Baskaran, Sambath
Hung, Sung-Fu
Wang, Shifu
Xu, Cong-Qao
Wang, Junhu
Chan, Ting-Shan
Chen, Hao Ming
Jiang, Jianchao
Yu, Qi
Huang, Yanqiang
Li, Jun
Zhang, Tao
Liu, Bin
Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction
description Atomically dispersed single-atom catalysts are among the most attractive electrocatalysts for the CO2 reduction reaction (CRR). To elucidate the origin of the exceptional activity of atomically dispersed Fe-N-C catalyst in CRR, we have performed operando 57Fe Mössbauer spectroscopic studies on a model single-Fe-atom catalyst with a well-defined N coordination environment. Combining with operando X-ray absorption spectroscopy, the in situ-generated four pyrrolic nitrogen atom-coordinated low-spin Fe(I) (LS FeIN4) featuring monovalent iron is identified as the reactive center for the conversion of CO2 to CO. Furthermore, density functional theory calculations reveal that the optimal binding strength of CO2 to the LS FeIN4 site, with strong orbital interactions between the singly occupied dz2 orbital of the Fe(I) site and the singly occupied π∗ orbital of [COOH] fragment, is the key factor for the excellent CRR performance.
author2 School of Chemical and Biomedical Engineering
author_facet School of Chemical and Biomedical Engineering
Li, Xuning
Zeng, Yaqiong
Tung, Ching-Wei
Lu, Ying-Rui
Baskaran, Sambath
Hung, Sung-Fu
Wang, Shifu
Xu, Cong-Qao
Wang, Junhu
Chan, Ting-Shan
Chen, Hao Ming
Jiang, Jianchao
Yu, Qi
Huang, Yanqiang
Li, Jun
Zhang, Tao
Liu, Bin
format Article
author Li, Xuning
Zeng, Yaqiong
Tung, Ching-Wei
Lu, Ying-Rui
Baskaran, Sambath
Hung, Sung-Fu
Wang, Shifu
Xu, Cong-Qao
Wang, Junhu
Chan, Ting-Shan
Chen, Hao Ming
Jiang, Jianchao
Yu, Qi
Huang, Yanqiang
Li, Jun
Zhang, Tao
Liu, Bin
author_sort Li, Xuning
title Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction
title_short Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction
title_full Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction
title_fullStr Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction
title_full_unstemmed Unveiling the in situ generation of a monovalent Fe(I) site in the single-Fe-atom catalyst for electrochemical CO₂ reduction
title_sort unveiling the in situ generation of a monovalent fe(i) site in the single-fe-atom catalyst for electrochemical co₂ reduction
publishDate 2022
url https://hdl.handle.net/10356/159978
_version_ 1738844931814850560

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