Relevance of the Mo-precursor state in H-ZSM-5 for methane dehydroaromatization

Ina Vollmer; Guanna Li; Irina Yarulina; Nikolay Kosinov; Emiel J. Hensen; Klaartje Houben; Deni Mance; Marc Baldus; Jorge Gascon; Freek Kapteijn

doi:10.1039/c7cy01789h

Relevance of the Mo-precursor state in H-ZSM-5 for methane dehydroaromatization

Ina Vollmer, Guanna Li, Irina Yarulina, Nikolay Kosinov, Emiel J. Hensen, Klaartje Houben, Deni Mance, Marc Baldus, Jorge Gascon^*, Freek Kapteijn

^*Corresponding author for this work

ChemE/Catalysis Engineering

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

Although the local geometry of Mo in Mo/HZSM-5 has been characterized before, we present a systematic way to manipulate the configuration of Mo and link it to its catalytic properties. The location and geometry of cationic Mo-complexes, the precursor of the active metal site for methane dehydroaromatization, are altered by directing the way they anchor to the framework of the zeolite. The feature used to direct the anchoring of Mo is the location of Al in the zeolite framework. According to DFT calculations, the local geometry of Mo should change, while UV-vis and pyridine FTIR spectroscopy indicated differences in the dispersion of Mo. Both aspects, however, did not influence the catalytic behavior of Mo/HZSM-5, indicating that as long as enough isolated Mo species are present inside the pores of the zeolite, the catalytic behavior is unaffected. This paves the way to better understand how the Mo oxo precursor transforms into the active phase under the reaction conditions.

Original language	English
Pages (from-to)	916-922
Number of pages	7
Journal	Catalysis Science and Technology
Volume	8
Issue number	3
DOIs	https://doi.org/10.1039/c7cy01789h
Publication status	Published - 1 Jan 2018

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title = "Relevance of the Mo-precursor state in H-ZSM-5 for methane dehydroaromatization",

abstract = "Although the local geometry of Mo in Mo/HZSM-5 has been characterized before, we present a systematic way to manipulate the configuration of Mo and link it to its catalytic properties. The location and geometry of cationic Mo-complexes, the precursor of the active metal site for methane dehydroaromatization, are altered by directing the way they anchor to the framework of the zeolite. The feature used to direct the anchoring of Mo is the location of Al in the zeolite framework. According to DFT calculations, the local geometry of Mo should change, while UV-vis and pyridine FTIR spectroscopy indicated differences in the dispersion of Mo. Both aspects, however, did not influence the catalytic behavior of Mo/HZSM-5, indicating that as long as enough isolated Mo species are present inside the pores of the zeolite, the catalytic behavior is unaffected. This paves the way to better understand how the Mo oxo precursor transforms into the active phase under the reaction conditions.",

author = "Ina Vollmer and Guanna Li and Irina Yarulina and Nikolay Kosinov and Hensen, {Emiel J.} and Klaartje Houben and Deni Mance and Marc Baldus and Jorge Gascon and Freek Kapteijn",

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AU - Vollmer, Ina

AU - Li, Guanna

AU - Yarulina, Irina

AU - Kosinov, Nikolay

AU - Hensen, Emiel J.

AU - Houben, Klaartje

AU - Mance, Deni

AU - Baldus, Marc

AU - Gascon, Jorge

AU - Kapteijn, Freek

N1 - Accepted Author Manuscript

PY - 2018/1/1

Y1 - 2018/1/1

N2 - Although the local geometry of Mo in Mo/HZSM-5 has been characterized before, we present a systematic way to manipulate the configuration of Mo and link it to its catalytic properties. The location and geometry of cationic Mo-complexes, the precursor of the active metal site for methane dehydroaromatization, are altered by directing the way they anchor to the framework of the zeolite. The feature used to direct the anchoring of Mo is the location of Al in the zeolite framework. According to DFT calculations, the local geometry of Mo should change, while UV-vis and pyridine FTIR spectroscopy indicated differences in the dispersion of Mo. Both aspects, however, did not influence the catalytic behavior of Mo/HZSM-5, indicating that as long as enough isolated Mo species are present inside the pores of the zeolite, the catalytic behavior is unaffected. This paves the way to better understand how the Mo oxo precursor transforms into the active phase under the reaction conditions.

AB - Although the local geometry of Mo in Mo/HZSM-5 has been characterized before, we present a systematic way to manipulate the configuration of Mo and link it to its catalytic properties. The location and geometry of cationic Mo-complexes, the precursor of the active metal site for methane dehydroaromatization, are altered by directing the way they anchor to the framework of the zeolite. The feature used to direct the anchoring of Mo is the location of Al in the zeolite framework. According to DFT calculations, the local geometry of Mo should change, while UV-vis and pyridine FTIR spectroscopy indicated differences in the dispersion of Mo. Both aspects, however, did not influence the catalytic behavior of Mo/HZSM-5, indicating that as long as enough isolated Mo species are present inside the pores of the zeolite, the catalytic behavior is unaffected. This paves the way to better understand how the Mo oxo precursor transforms into the active phase under the reaction conditions.

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Relevance of the Mo-precursor state in H-ZSM-5 for methane dehydroaromatization

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