Marianne H. F. Kox scite author profile

Formation of coke in large H-ZSM-5 and H-SAPO-34 crystals during the methanol-to-olefin (MTO) reaction has been studied in a space- and time-resolved manner. This has been made possible by applying a high-temperature in-situ cell in combination with micro-spectroscopic techniques. The buildup of optically active carbonaceous species allows detection with UV/Vis microscopy, while a confocal fluorescence microscope in an upright configuration visualises the formation of coke molecules and their precursors inside the catalyst grains. In H-ZSM-5, coke is initially formed at the triangular crystal edges, in which straight channel openings reach directly the external crystal surface. At reaction temperatures ranging from 530 to 745 K, two absorption bands at around 415 and 550 nm were detected due to coke or its precursors. Confocal fluorescence microscopy reveals fluorescent carbonaceous species that initially form in the near-surface area and gradually diffuse inwards the crystal in which internal intergrowth boundaries hinder a facile penetration for the more bulky aromatic compounds. In the case of H-SAPO-34 crystals, an absorption band at around 400 nm arises during the reaction. This band grows in intensity with time and then decreases if the reaction is carried out between 530 and 575 K, whereas at higher temperatures its intensity remains steady with time on stream. Formation of the fluorescent species during the course of the reaction is limited to the near-surface region of the H-SAPO-34 crystals, thereby creating diffusion limitations for the coke front moving towards the middle of the crystal during the MTO reaction. The two applied micro-spectroscopic techniques introduced allow us to distinguish between graphite-like coke deposited on the external crystal surface and aromatic species formed inside the zeolite channels. The use of the methods can be extended to a wide variety of catalytic reactions and materials in which carbonaceous deposits are formed.

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Morphology-dependent zeolite intergrowth structures leading to distinct internal and outer-surface molecular diffusion barriers

Karwacki

et al. 2009

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Zeolites play a crucial part in acid-base heterogeneous catalysis. Fundamental insight into their internal architecture is of great importance for understanding their structure-function relationships. Here, we report on a new approach correlating confocal fluorescence microscopy with focused ion beam-electron backscatter diffraction, transmission electron microscopy lamelling and diffraction, atomic force microscopy and X-ray photoelectron spectroscopy to study a wide range of coffin-shaped MFI-type zeolite crystals differing in their morphology and chemical composition. This powerful combination demonstrates a unified view on the morphology-dependent MFI-type intergrowth structures and provides evidence for the presence and nature of internal and outer-surface barriers for molecular diffusion. It has been found that internal-surface barriers originate not only from a 90 degrees mismatch in structure and pore alignment but also from small angle differences of 0.5 degrees-2 degrees for particular crystal morphologies. Furthermore, outer-surface barriers seem to be composed of a silicalite outer crust with a thickness varying from 10 to 200 nm.

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Revealing Shape Selectivity and Catalytic Activity Trends Within the Pores of H‐ZSM‐5 Crystals by Time‐ and Space‐Resolved Optical and Fluorescence Microspectroscopy

Stavitski

Kox

Weckhuysen

2007

Chemistry A European J

101

153

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Radikale in gelenkten Bahnen: Das μ‐η2:η2‐Peroxo‐CuII2‐Intermediat 1 zeigt eine viel schnellere benzylische Hydroxylierung des Liganden als vergleichbare Systeme ohne Phenolfunktion. Die Reaktion lässt sich durch die Zugabe externer H‐Atom‐Donoren wie TEMPO‐H noch weiter beschleunigen. Nach einem H‐Atom‐Transfer unter Bildung eines Phenoxylradikals entsteht ein hoch reaktives Kupfer‐Oxyl‐Intermediat, dessen Sauerstoffatom dann in die benzylische C‐H‐Bindung inseriert.

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Nonuniform Catalytic Behavior of Zeolite Crystals as Revealed by In Situ Optical Microspectroscopy

2007

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Pore geometry matters: Microspectroscopy with polarized light reveals that in the oligomerization of styrene on large ZSM‐5 crystals, different pore geometries may lead to distinct reaction products aligned within straight pores of the zeolite. In the body of the crystal, zigzag pore openings provide access for monomer molecules to diffuse inside and react with the dimer, whereas oligomerization at the edges leads toward mainly dimeric products.

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Marianne H. F. Kox

Quantum cutting by cooperative energy transfer inYbxY1−xPO4:
Vergeer
¹
,
Vlugt
²
,
Kox
³

et al. 2005
Phys. Rev. B
557
8
329
0
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Space‐ and Time‐Resolved In‐situ Spectroscopy on the Coke Formation in Molecular Sieves: Methanol‐to‐Olefin Conversion over H‐ZSM‐5 and H‐SAPO‐34

Morphology-dependent zeolite intergrowth structures leading to distinct internal and outer-surface molecular diffusion barriers

Revealing Shape Selectivity and Catalytic Activity Trends Within the Pores of H‐ZSM‐5 Crystals by Time‐ and Space‐Resolved Optical and Fluorescence Microspectroscopy

Nonuniform Catalytic Behavior of Zeolite Crystals as Revealed by In Situ Optical Microspectroscopy

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Marianne H. F. Kox

Quantum cutting by cooperative energy transfer inYbxY1−xPO4:Vergeer1, Vlugt2, Kox3 et al. 2005Phys. Rev. B55783290View full textAdd to dashboardCite

Space‐ and Time‐Resolved In‐situ Spectroscopy on the Coke Formation in Molecular Sieves: Methanol‐to‐Olefin Conversion over H‐ZSM‐5 and H‐SAPO‐34

Morphology-dependent zeolite intergrowth structures leading to distinct internal and outer-surface molecular diffusion barriers

Revealing Shape Selectivity and Catalytic Activity Trends Within the Pores of H‐ZSM‐5 Crystals by Time‐ and Space‐Resolved Optical and Fluorescence Microspectroscopy

Nonuniform Catalytic Behavior of Zeolite Crystals as Revealed by In Situ Optical Microspectroscopy

Contact Info

Product

Resources

About

Quantum cutting by cooperative energy transfer inYbxY1−xPO4:
Vergeer
¹
,
Vlugt
²
,
Kox
³

et al. 2005
Phys. Rev. B
557
8
329
0
View full text Add to dashboard Cite