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Understanding the mechanism of catalytic fast pyrolysis by unveiling reactive intermediates in heterogeneous catalysis

Author

Listed:
  • Patrick Hemberger

    (Laboratory for Femtochemistry and Synchrotron Radiation, Paul Scherrer Institute)

  • Victoria B. F. Custodis

    (Institute for Chemical and Bioengineering
    Laboratory for Catalysis and Sustainable Chemistry, Paul Scherrer Institute)

  • Andras Bodi

    (Laboratory for Femtochemistry and Synchrotron Radiation, Paul Scherrer Institute)

  • Thomas Gerber

    (Molecular Dynamics Group, Paul Scherrer Institute)

  • Jeroen A. van Bokhoven

    (Institute for Chemical and Bioengineering
    Laboratory for Catalysis and Sustainable Chemistry, Paul Scherrer Institute)

Abstract

Catalytic fast pyrolysis is a promising way to convert lignin into fine chemicals and fuels, but current approaches lack selectivity and yield unsatisfactory conversion. Understanding the pyrolysis reaction mechanism at the molecular level may help to make this sustainable process more economic. Reactive intermediates are responsible for product branching and hold the key to unveiling these mechanisms, but are notoriously difficult to detect isomer-selectively. Here, we investigate the catalytic pyrolysis of guaiacol, a lignin model compound, using photoelectron photoion coincidence spectroscopy with synchrotron radiation, which allows for isomer-selective detection of reactive intermediates. In combination with ambient pressure pyrolysis, we identify fulvenone as the central reactive intermediate, generated by catalytic demethylation to catechol and subsequent dehydration. The fulvenone ketene is responsible for the phenol formation. This technique may open unique opportunities for isomer-resolved probing in catalysis, and holds the potential for achieving a mechanistic understanding of complex, real-life catalytic processes.

Suggested Citation

  • Patrick Hemberger & Victoria B. F. Custodis & Andras Bodi & Thomas Gerber & Jeroen A. van Bokhoven, 2017. "Understanding the mechanism of catalytic fast pyrolysis by unveiling reactive intermediates in heterogeneous catalysis," Nature Communications, Nature, vol. 8(1), pages 1-9, August.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15946
    DOI: 10.1038/ncomms15946
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    Cited by:

    1. Ha, Jeong-Myeong & Hwang, Kyung-Ran & Kim, Young-Min & Jae, Jungho & Kim, Kwang Ho & Lee, Hyung Won & Kim, Jae-Young & Park, Young-Kwon, 2019. "Recent progress in the thermal and catalytic conversion of lignin," Renewable and Sustainable Energy Reviews, Elsevier, vol. 111(C), pages 422-441.
    2. Zeyou Pan & Allen Puente-Urbina & Syeda Rabia Batool & Andras Bodi & Xiangkun Wu & Zihao Zhang & Jeroen A. Bokhoven & Patrick Hemberger, 2023. "Tuning the zeolite acidity enables selectivity control by suppressing ketene formation in lignin catalytic pyrolysis," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    3. Nanduri, Arvind & Kulkarni, Shreesh S. & Mills, Patrick L., 2021. "Experimental techniques to gain mechanistic insight into fast pyrolysis of lignocellulosic biomass: A state-of-the-art review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 148(C).

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