Implications of the Molybdenum Coordination Environment in MFI Zeolites on Methane Dehydroaromatisation Performance

Miren Agote-Arán; Rachel E. Fletcher; Martha Briceno; Anna B. Kroner; Igor V. Sazanovich; Ben Slater; María E. Rivas; Andrew W.J. Smith; Paul Collier; Inés Lezcano-González; Andrew M. Beale

doi:10.1002/cctc.201901166

Implications of the Molybdenum Coordination Environment in MFI Zeolites on Methane Dehydroaromatisation Performance

Miren Agote-Arán, Rachel E. Fletcher, Martha Briceno, Anna B. Kroner, Igor V. Sazanovich, Ben Slater, María E. Rivas, Andrew W.J. Smith, Paul Collier, Inés Lezcano-González^*, Andrew M. Beale

^*Corresponding author for this work

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

Abstract

The structure and activity of Mo/Silicalite-1 (MFI, Si/Al=∞) were compared to Mo/H-ZSM-5 (MFI, Si/Al=15), a widely studied catalyst for methane dehydroaromatisation (MDA). The anchoring mode of Mo was evaluated by in situ X-ray absorption spectroscopy (XAS) and density functional theory (DFT). The results showed that in Mo/Silicalite-1, calcination leads to dispersion of MoO₃ precursor into tetrahedral Mo-oxo species in close proximity to the microporous framework. A weaker interaction of the Mo-oxo species with the Silicalite-1 was determined by XAS and DFT. While both catalysts are active for MDA, Mo/Silicalite-1 undergoes rapid deactivation which was attributed to a faster sintering of Mo species leading to the accumulation of carbon deposits on the zeolite outer surface. The results shed light onto the nature of the Mo structure(s) while evidencing the importance of framework Al in stabilising active Mo species under MDA conditions.

Original language	English
Pages (from-to)	294-304
Number of pages	11
Journal	ChemCatChem
Volume	12
Issue number	1
DOIs	https://doi.org/10.1002/cctc.201901166
Publication status	Published - 8 Jan 2020
Externally published	Yes

Keywords

DFT
in situ XAS
MDA
Mo/zeolite

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title = "Implications of the Molybdenum Coordination Environment in MFI Zeolites on Methane Dehydroaromatisation Performance",

abstract = "The structure and activity of Mo/Silicalite-1 (MFI, Si/Al=∞) were compared to Mo/H-ZSM-5 (MFI, Si/Al=15), a widely studied catalyst for methane dehydroaromatisation (MDA). The anchoring mode of Mo was evaluated by in situ X-ray absorption spectroscopy (XAS) and density functional theory (DFT). The results showed that in Mo/Silicalite-1, calcination leads to dispersion of MoO3 precursor into tetrahedral Mo-oxo species in close proximity to the microporous framework. A weaker interaction of the Mo-oxo species with the Silicalite-1 was determined by XAS and DFT. While both catalysts are active for MDA, Mo/Silicalite-1 undergoes rapid deactivation which was attributed to a faster sintering of Mo species leading to the accumulation of carbon deposits on the zeolite outer surface. The results shed light onto the nature of the Mo structure(s) while evidencing the importance of framework Al in stabilising active Mo species under MDA conditions.",

keywords = "DFT, in situ XAS, MDA, Mo/zeolite",

author = "Miren Agote-Ar{\'a}n and Fletcher, {Rachel E.} and Martha Briceno and Kroner, {Anna B.} and Sazanovich, {Igor V.} and Ben Slater and Rivas, {Mar{\'i}a E.} and Smith, {Andrew W.J.} and Paul Collier and In{\'e}s Lezcano-Gonz{\'a}lez and Beale, {Andrew M.}",

note = "Publisher Copyright: {\textcopyright} 2020 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim",

year = "2020",

month = jan,

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doi = "10.1002/cctc.201901166",

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T1 - Implications of the Molybdenum Coordination Environment in MFI Zeolites on Methane Dehydroaromatisation Performance

AU - Agote-Arán, Miren

AU - Fletcher, Rachel E.

AU - Briceno, Martha

AU - Kroner, Anna B.

AU - Sazanovich, Igor V.

AU - Slater, Ben

AU - Rivas, María E.

AU - Smith, Andrew W.J.

AU - Collier, Paul

AU - Lezcano-González, Inés

AU - Beale, Andrew M.

PY - 2020/1/8

Y1 - 2020/1/8

N2 - The structure and activity of Mo/Silicalite-1 (MFI, Si/Al=∞) were compared to Mo/H-ZSM-5 (MFI, Si/Al=15), a widely studied catalyst for methane dehydroaromatisation (MDA). The anchoring mode of Mo was evaluated by in situ X-ray absorption spectroscopy (XAS) and density functional theory (DFT). The results showed that in Mo/Silicalite-1, calcination leads to dispersion of MoO3 precursor into tetrahedral Mo-oxo species in close proximity to the microporous framework. A weaker interaction of the Mo-oxo species with the Silicalite-1 was determined by XAS and DFT. While both catalysts are active for MDA, Mo/Silicalite-1 undergoes rapid deactivation which was attributed to a faster sintering of Mo species leading to the accumulation of carbon deposits on the zeolite outer surface. The results shed light onto the nature of the Mo structure(s) while evidencing the importance of framework Al in stabilising active Mo species under MDA conditions.

AB - The structure and activity of Mo/Silicalite-1 (MFI, Si/Al=∞) were compared to Mo/H-ZSM-5 (MFI, Si/Al=15), a widely studied catalyst for methane dehydroaromatisation (MDA). The anchoring mode of Mo was evaluated by in situ X-ray absorption spectroscopy (XAS) and density functional theory (DFT). The results showed that in Mo/Silicalite-1, calcination leads to dispersion of MoO3 precursor into tetrahedral Mo-oxo species in close proximity to the microporous framework. A weaker interaction of the Mo-oxo species with the Silicalite-1 was determined by XAS and DFT. While both catalysts are active for MDA, Mo/Silicalite-1 undergoes rapid deactivation which was attributed to a faster sintering of Mo species leading to the accumulation of carbon deposits on the zeolite outer surface. The results shed light onto the nature of the Mo structure(s) while evidencing the importance of framework Al in stabilising active Mo species under MDA conditions.

KW - DFT

KW - in situ XAS

KW - MDA

KW - Mo/zeolite

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Implications of the Molybdenum Coordination Environment in MFI Zeolites on Methane Dehydroaromatisation Performance

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Keywords

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