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Transient pulsed discharge preparation of graphene aerogel supports asymmetric Cu cluster catalysts promote CO2 electroreduction

Author

Listed:
  • Kaiyuan Liu

    (Beijing Institute of Technology
    Yangtze Delta Region Academy of Beijing Institute of Technology)

  • Hao Shen

    (Jiangsu University)

  • Zhiyi Sun

    (Beijing Institute of Technology)

  • Qiang Zhou

    (China Academy of Ordnance Science)

  • Guoqiang Liu

    (Anhui University of Technology)

  • Zhongti Sun

    (Jiangsu University)

  • Wenxing Chen

    (Beijing Institute of Technology)

  • Xin Gao

    (Beijing Institute of Technology)

  • Pengwan Chen

    (Beijing Institute of Technology
    Yangtze Delta Region Academy of Beijing Institute of Technology
    Beijing Institute of Technology)

Abstract

Designing asymmetrical structures is an effective strategy to optimize metallic catalysts for electrochemical carbon dioxide reduction reactions. Herein, we demonstrate a transient pulsed discharge method for instantaneously constructing graphene-aerogel supports asymmetric copper nanocluster catalysts. This process induces the convergence of copper atoms decomposed by copper chloride onto graphene originating from the intense current pulse and high temperature. The catalysts exhibit asymmetrical atomic and electronic structures due to lattice distortion and oxygen doping of copper clusters. In carbon dioxide reduction reaction, the selectivity and activity for ethanol production are enhanced by the asymmetric structure and abundance of active sites on catalysts, achieving a Faradaic efficiency of 75.3% for ethanol and 90.5% for multicarbon products at −1.1 V vs. reversible hydrogen electrode. Moreover, the strong interactions between copper nanoclusters and graphene-aerogel support confer notable long-term stability. We elucidate the key reaction intermediates and mechanisms on Cu4O-Cu/C2O1 moieties through in situ testing and density functional theory calculations. This study provides an innovative approach to balancing activity and stability in asymmetric-structure catalysts for energy conversion.

Suggested Citation

  • Kaiyuan Liu & Hao Shen & Zhiyi Sun & Qiang Zhou & Guoqiang Liu & Zhongti Sun & Wenxing Chen & Xin Gao & Pengwan Chen, 2025. "Transient pulsed discharge preparation of graphene aerogel supports asymmetric Cu cluster catalysts promote CO2 electroreduction," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56534-1
    DOI: 10.1038/s41467-025-56534-1
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    as
    1. Xue Wang & Ziyun Wang & F. Pelayo García de Arquer & Cao-Thang Dinh & Adnan Ozden & Yuguang C. Li & Dae-Hyun Nam & Jun Li & Yi-Sheng Liu & Joshua Wicks & Zitao Chen & Miaofang Chi & Bin Chen & Ying Wa, 2020. "Efficient electrically powered CO2-to-ethanol via suppression of deoxygenation," Nature Energy, Nature, vol. 5(6), pages 478-486, June.
    2. Mingchuan Luo & Ziyun Wang & Yuguang C. Li & Jun Li & Fengwang Li & Yanwei Lum & Dae-Hyun Nam & Bin Chen & Joshua Wicks & Aoni Xu & Taotao Zhuang & Wan Ru Leow & Xue Wang & Cao-Thang Dinh & Ying Wang , 2019. "Hydroxide promotes carbon dioxide electroreduction to ethanol on copper via tuning of adsorbed hydrogen," Nature Communications, Nature, vol. 10(1), pages 1-7, December.
    3. Haiping Xu & Dominic Rebollar & Haiying He & Lina Chong & Yuzi Liu & Cong Liu & Cheng-Jun Sun & Tao Li & John V. Muntean & Randall E. Winans & Di-Jia Liu & Tao Xu, 2020. "Highly selective electrocatalytic CO2 reduction to ethanol by metallic clusters dynamically formed from atomically dispersed copper," Nature Energy, Nature, vol. 5(8), pages 623-632, August.
    4. Xiaozhi Su & Zhuoli Jiang & Jing Zhou & Hengjie Liu & Danni Zhou & Huishan Shang & Xingming Ni & Zheng Peng & Fan Yang & Wenxing Chen & Zeming Qi & Dingsheng Wang & Yu Wang, 2022. "Complementary Operando Spectroscopy identification of in-situ generated metastable charge-asymmetry Cu2-CuN3 clusters for CO2 reduction to ethanol," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    5. Pengtang Wang & Hao Yang & Cheng Tang & Yu Wu & Yao Zheng & Tao Cheng & Kenneth Davey & Xiaoqing Huang & Shi-Zhang Qiao, 2022. "Boosting electrocatalytic CO2–to–ethanol production via asymmetric C–C coupling," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    6. Cheng Du & Joel P. Mills & Asfaw G. Yohannes & Wei Wei & Lei Wang & Siyan Lu & Jian-Xiang Lian & Maoyu Wang & Tao Guo & Xiyang Wang & Hua Zhou & Cheng-Jun Sun & John Z. Wen & Brian Kendall & Martin Co, 2023. "Cascade electrocatalysis via AgCu single-atom alloy and Ag nanoparticles in CO2 electroreduction toward multicarbon products," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    7. Chao Zhan & Federico Dattila & Clara Rettenmaier & Antonia Herzog & Matias Herran & Timon Wagner & Fabian Scholten & Arno Bergmann & Núria López & Beatriz Roldan Cuenya, 2024. "Key intermediates and Cu active sites for CO2 electroreduction to ethylene and ethanol," Nature Energy, Nature, vol. 9(12), pages 1485-1496, December.
    8. Yu Du & Fakang Xie & Mengfei Lu & Rongxian Lv & Wangxi Liu & Yuandong Yan & Shicheng Yan & Zhigang Zou, 2024. "Continuous strain tuning of oxygen evolution catalysts with anisotropic thermal expansion," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    9. Huishan Shang & Xiangyi Zhou & Juncai Dong & Ang Li & Xu Zhao & Qinghua Liu & Yue Lin & Jiajing Pei & Zhi Li & Zhuoli Jiang & Danni Zhou & Lirong Zheng & Yu Wang & Jing Zhou & Zhengkun Yang & Rui Cao , 2020. "Engineering unsymmetrically coordinated Cu-S1N3 single atom sites with enhanced oxygen reduction activity," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    10. Yanming Cai & Jiaju Fu & Yang Zhou & Yu-Chung Chang & Qianhao Min & Jun-Jie Zhu & Yuehe Lin & Wenlei Zhu, 2021. "Insights on forming N,O-coordinated Cu single-atom catalysts for electrochemical reduction CO2 to methane," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    11. Yao Yang & Sheena Louisia & Sunmoon Yu & Jianbo Jin & Inwhan Roh & Chubai Chen & Maria V. Fonseca Guzman & Julian Feijóo & Peng-Cheng Chen & Hongsen Wang & Christopher J. Pollock & Xin Huang & Yu-Tsun, 2023. "Operando studies reveal active Cu nanograins for CO2 electroreduction," Nature, Nature, vol. 614(7947), pages 262-269, February.
    12. Yuvraj Y. Birdja & Elena Pérez-Gallent & Marta C. Figueiredo & Adrien J. Göttle & Federico Calle-Vallejo & Marc T. M. Koper, 2019. "Advances and challenges in understanding the electrocatalytic conversion of carbon dioxide to fuels," Nature Energy, Nature, vol. 4(9), pages 732-745, September.
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