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Unraveling the mysterious failure of Cu/SAPO-34 selective catalytic reduction catalysts

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  • Aiyong Wang

    (Institute for Integrated Catalysis, Pacific Northwest National Laboratory)

  • Ying Chen

    (Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory)

  • Eric D. Walter

    (Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory)

  • Nancy M. Washton

    (Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory)

  • Donghai Mei

    (Institute for Integrated Catalysis, Pacific Northwest National Laboratory)

  • Tamas Varga

    (Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory)

  • Yilin Wang

    (Institute for Integrated Catalysis, Pacific Northwest National Laboratory)

  • János Szanyi

    (Institute for Integrated Catalysis, Pacific Northwest National Laboratory)

  • Yong Wang

    (Institute for Integrated Catalysis, Pacific Northwest National Laboratory)

  • Charles H. F. Peden

    (Institute for Integrated Catalysis, Pacific Northwest National Laboratory)

  • Feng Gao

    (Institute for Integrated Catalysis, Pacific Northwest National Laboratory)

Abstract

Commercial Cu/SAPO-34 selective catalytic reduction (SCR) catalysts have experienced unexpected and quite perplexing failure. Understanding the causes at an atomic level is vital for the synthesis of more robust Cu/SAPO-34 catalysts. Here we show, via application of model catalysts with homogeneously dispersed isolated Cu ions, that Cu transformations resulting from low-temperature hydrothermal aging and ambient temperature storage can be semi-quantitatively probed with 2-dimensional pulsed electron paramagnetic resonance. Coupled with kinetics, additional material characterizations and DFT simulations, we propose the following catalyst deactivation steps: (1) detachment of Cu(II) ions from cationic positions in the form of Cu(OH)2; (2) irreversible hydrolysis of the SAPO-34 framework forming terminal Al species; and (3) interaction between Cu(OH)2 and terminal Al species forming SCR inactive, Cu-aluminate like species. Especially significant is that these reactions are greatly facilitated by condensed water molecules under wet ambient conditions, causing low temperature failure of the commercial Cu/SAPO-34 catalysts.

Suggested Citation

  • Aiyong Wang & Ying Chen & Eric D. Walter & Nancy M. Washton & Donghai Mei & Tamas Varga & Yilin Wang & János Szanyi & Yong Wang & Charles H. F. Peden & Feng Gao, 2019. "Unraveling the mysterious failure of Cu/SAPO-34 selective catalytic reduction catalysts," Nature Communications, Nature, vol. 10(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09021-3
    DOI: 10.1038/s41467-019-09021-3
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