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Trimetallic FeNiCu atomic clusters supported on carbon matrix : highly active catalysts for C3H6–SCR of NO

Shuying Ning, Nini Wen, Bingtao Zhao, Muhammad Kashif (UGent) , Philippe Heynderickx (UGent) and Yaxin Su
(2024) ACS APPLIED MATERIALS & INTERFACES. 16(47). p.64664-64680
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Abstract
C3H6–SCR denitrification technology faces catalyst deactivation problems and low catalytic performance at medium-low temperatures. This study utilized the intermetallic synergies to prepare atomic cluster catalysts (FeNiCu/NC) by anchoring Fe–Ni–Cu on a carbon matrix to enhance the C3H6–SCR performance at medium-low temperatures. The synergistic effect of the Fe–Ni–Cu is reflected in the differences in the physicochemical properties of the catalysts, which is proved by several characterization techniques. Results showed that the FeNiCu/NC catalyst had a larger surface area (541.4 m2/g) and there were no metal oxides on the surface of the catalyst but abundant defective sites that anchored Fe/Ni/Cu atoms through N atoms to form M–Nx active sites and atomic clusters. The hollow carbon morphology provides sufficient active sites for C3H6–SCR. The coordination environments of active sites were M–Nx–C, Fe2/FeCu2/FeNi2, Ni3/NiFe/NiCu2, and Cu4/CuFe2/CuNi2, where the synergistic action of trimetal leads to the presence of Fe–Ni–Cu–Nx–C. The synergistic action of the Fe–Ni–Cu significantly improved the C3H6–SCR performance at medium-low temperatures. The FeNiCu/NC exhibited an 81% NO conversion at 150 °C under 2% O2, 15% and 20% higher than FeNi/NC and FeCu/NC catalysts, respectively. Even at 4% O2, the FeNiCu/NC catalyst was active to remove 78% NO and achieve a 93% N2 selectivity at 150 °C and maintained a 100% NO conversion at 300–425 °C. The DRIFTS results demonstrated that NO and C3H6 could combine with active O at metal cluster, M–Nx, or defective oxygen sites to produce various intermediate species, wherein acetates and nitrates were the main active intermediates. Based on the DRIFTS results, a reaction pathway for C3H6–SCR over the FeNiCu/NC catalyst was proposed.
Keywords
NO, C3H6-SCR, FeNiCu/NC catalyst, metal atomic clusters, synergisticeffect, LOW-TEMPERATURE SCR, REDUCTION, PERFORMANCE, OXYGEN, PROPYLENE, MECHANISM, OXIDE

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MLA
Ning, Shuying, et al. “Trimetallic FeNiCu Atomic Clusters Supported on Carbon Matrix : Highly Active Catalysts for C3H6–SCR of NO.” ACS APPLIED MATERIALS & INTERFACES, vol. 16, no. 47, 2024, pp. 64664–80, doi:10.1021/acsami.4c11698.
APA
Ning, S., Wen, N., Zhao, B., Kashif, M., Heynderickx, P., & Su, Y. (2024). Trimetallic FeNiCu atomic clusters supported on carbon matrix : highly active catalysts for C3H6–SCR of NO. ACS APPLIED MATERIALS & INTERFACES, 16(47), 64664–64680. https://doi.org/10.1021/acsami.4c11698
Chicago author-date
Ning, Shuying, Nini Wen, Bingtao Zhao, Muhammad Kashif, Philippe Heynderickx, and Yaxin Su. 2024. “Trimetallic FeNiCu Atomic Clusters Supported on Carbon Matrix : Highly Active Catalysts for C3H6–SCR of NO.” ACS APPLIED MATERIALS & INTERFACES 16 (47): 64664–80. https://doi.org/10.1021/acsami.4c11698.
Chicago author-date (all authors)
Ning, Shuying, Nini Wen, Bingtao Zhao, Muhammad Kashif, Philippe Heynderickx, and Yaxin Su. 2024. “Trimetallic FeNiCu Atomic Clusters Supported on Carbon Matrix : Highly Active Catalysts for C3H6–SCR of NO.” ACS APPLIED MATERIALS & INTERFACES 16 (47): 64664–64680. doi:10.1021/acsami.4c11698.
Vancouver
1.
Ning S, Wen N, Zhao B, Kashif M, Heynderickx P, Su Y. Trimetallic FeNiCu atomic clusters supported on carbon matrix : highly active catalysts for C3H6–SCR of NO. ACS APPLIED MATERIALS & INTERFACES. 2024;16(47):64664–80.
IEEE
[1]
S. Ning, N. Wen, B. Zhao, M. Kashif, P. Heynderickx, and Y. Su, “Trimetallic FeNiCu atomic clusters supported on carbon matrix : highly active catalysts for C3H6–SCR of NO,” ACS APPLIED MATERIALS & INTERFACES, vol. 16, no. 47, pp. 64664–64680, 2024.
@article{01JCZRRX99ZRTXQPZQXE22FHJV,
  abstract     = {{C3H6–SCR denitrification technology faces catalyst deactivation problems and low catalytic performance at medium-low temperatures. This study utilized the intermetallic synergies to prepare atomic cluster catalysts (FeNiCu/NC) by anchoring Fe–Ni–Cu on a carbon matrix to enhance the C3H6–SCR performance at medium-low temperatures. The synergistic effect of the Fe–Ni–Cu is reflected in the differences in the physicochemical properties of the catalysts, which is proved by several characterization techniques. Results showed that the FeNiCu/NC catalyst had a larger surface area (541.4 m2/g) and there were no metal oxides on the surface of the catalyst but abundant defective sites that anchored Fe/Ni/Cu atoms through N atoms to form M–Nx active sites and atomic clusters. The hollow carbon morphology provides sufficient active sites for C3H6–SCR. The coordination environments of active sites were M–Nx–C, Fe2/FeCu2/FeNi2, Ni3/NiFe/NiCu2, and Cu4/CuFe2/CuNi2, where the synergistic action of trimetal leads to the presence of Fe–Ni–Cu–Nx–C. The synergistic action of the Fe–Ni–Cu significantly improved the C3H6–SCR performance at medium-low temperatures. The FeNiCu/NC exhibited an 81% NO conversion at 150 °C under 2% O2, 15% and 20% higher than FeNi/NC and FeCu/NC catalysts, respectively. Even at 4% O2, the FeNiCu/NC catalyst was active to remove 78% NO and achieve a 93% N2 selectivity at 150 °C and maintained a 100% NO conversion at 300–425 °C. The DRIFTS results demonstrated that NO and C3H6 could combine with active O at metal cluster, M–Nx, or defective oxygen sites to produce various intermediate species, wherein acetates and nitrates were the main active intermediates. Based on the DRIFTS results, a reaction pathway for C3H6–SCR over the FeNiCu/NC catalyst was proposed.}},
  author       = {{Ning, Shuying and Wen, Nini and Zhao, Bingtao and Kashif, Muhammad and Heynderickx, Philippe and Su, Yaxin}},
  issn         = {{1944-8244}},
  journal      = {{ACS APPLIED MATERIALS & INTERFACES}},
  keywords     = {{NO,C3H6-SCR,FeNiCu/NC catalyst,metal atomic clusters,synergisticeffect,LOW-TEMPERATURE SCR,REDUCTION,PERFORMANCE,OXYGEN,PROPYLENE,MECHANISM,OXIDE}},
  language     = {{eng}},
  number       = {{47}},
  pages        = {{64664--64680}},
  title        = {{Trimetallic FeNiCu atomic clusters supported on carbon matrix : highly active catalysts for C3H6–SCR of NO}},
  url          = {{http://doi.org/10.1021/acsami.4c11698}},
  volume       = {{16}},
  year         = {{2024}},
}
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