Methane Oxidation over Cu2+/[CuOH]+ Pairs and Site‐Specific Kinetics in Copper Mordenite Revealed by Operando Electron Paramagnetic Resonance and UV/Visible Spectroscopy

Methane Oxidation over Cu2+/[CuOH]+ Pairs and Site‐Specific Kinetics in Copper Mordenite Revealed by Operando Electron Paramagnetic Resonance and UV/Visible Spectroscopy

Cu‐exchanged mordenite (MOR) is a promising material for partial CH4 oxidation. The structural diversity of Cu species within MOR makes it difficult to identify the active Cu sites and to determine their redox and kinetic properties. In this study, the Cu speciation in Cu‐MOR materials with differen...

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Veröffentlicht in:Angewandte Chemie International Edition 2023-08, Vol.62 (34), p.e202303574-n/a
Hauptverfasser: Fischer, Jörg Wolfram Anselm, Brenig, Andreas, Klose, Daniel, Bokhoven, Jeroen Anton, Sushkevich, Vitaly L., Jeschke, Gunnar
Format: Artikel
Sprache:eng
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Copper
Electron paramagnetic resonance
Electron spin resonance
Fourier transforms
heterogeneous catalysis
Infrared spectroscopy
Kinetics
Methane
methane to methanol
operando spectroscopy
Oxidation
Photoluminescence
Photons
Reaction kinetics
Resonance
Speciation
Species diversity
Spectroscopy
zeolites
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container_issue 34
container_start_page e202303574
container_title Angewandte Chemie International Edition
container_volume 62
creator Fischer, Jörg Wolfram Anselm
Brenig, Andreas
Klose, Daniel
Bokhoven, Jeroen Anton
Sushkevich, Vitaly L.
Jeschke, Gunnar
description Cu‐exchanged mordenite (MOR) is a promising material for partial CH4 oxidation. The structural diversity of Cu species within MOR makes it difficult to identify the active Cu sites and to determine their redox and kinetic properties. In this study, the Cu speciation in Cu‐MOR materials with different Cu loadings has been determined using operando electron paramagnetic resonance (EPR) and operando ultraviolet‐visible (UV/Vis) spectroscopy as well as in situ photoluminescence (PL) and Fourier‐transform infrared (FTIR) spectroscopy. A novel pathway for CH4 oxidation involving paired [CuOH]+ and bare Cu2+ species has been identified. The reduction of bare Cu2+ ions facilitated by adjacent [CuOH]+ demonstrates that the frequently reported assumption of redox‐inert Cu2+ centers does not generally apply. The measured site‐specific reaction kinetics show that dimeric Cu species exhibit a faster reaction rate and a higher apparent activation energy than monomeric Cu2+ active sites highlighting their difference in the CH4 oxidation potential. The Cu speciation in Cu‐exchanged mordenite zeolites has been determined and site‐specific redox‐behavior and kinetic properties of monomeric and dimeric Cu2+ active sites in partial CH4 oxidation have been analyzed by a complementary, multi‐spectroscopic approach involving different operando and in situ techniques. Evidence for the participation of a [CuOH]+/Cu2+ site pair in CH4 conversion is provided.
doi_str_mv 10.1002/anie.202303574
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The Cu speciation in Cu‐exchanged mordenite zeolites has been determined and site‐specific redox‐behavior and kinetic properties of monomeric and dimeric Cu2+ active sites in partial CH4 oxidation have been analyzed by a complementary, multi‐spectroscopic approach involving different operando and in situ techniques. 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source Wiley Online Library Journals Frontfile Complete
subjects Copper
Electron paramagnetic resonance
Electron spin resonance
Fourier transforms
heterogeneous catalysis
Infrared spectroscopy
Kinetics
Methane
methane to methanol
operando spectroscopy
Oxidation
Photoluminescence
Photons
Reaction kinetics
Resonance
Speciation
Species diversity
Spectroscopy
zeolites
title Methane Oxidation over Cu2+/[CuOH]+ Pairs and Site‐Specific Kinetics in Copper Mordenite Revealed by Operando Electron Paramagnetic Resonance and UV/Visible Spectroscopy
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