Large Ferrierite Crystals as Models for Catalyst Deactivation during Skeletal Isomerisation of Oleic Acid: Evidence for Pore Mouth Catalysis

Sophie C. C. Wiedemann; Zoran Ristanovic; Gareth T. Whiting; V. R. Reddy Marthala; Joerg Kaerger; Jens Weitkamp; Bas Wels; Pieter C. A. Bruijnincx; Bert M. Weckhuysen

doi:10.1002/chem.201503551

Large Ferrierite Crystals as Models for Catalyst Deactivation during Skeletal Isomerisation of Oleic Acid: Evidence for Pore Mouth Catalysis

Sophie C. C. Wiedemann, Zoran Ristanovic, Gareth T. Whiting, V. R. Reddy Marthala, Joerg Kaerger, Jens Weitkamp, Bas Wels, Pieter C. A. Bruijnincx, Bert M. Weckhuysen^*

^*Corresponding author for this work

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

Abstract

Large zeolite crystals of ferrierite have been used to study the deactivation, at the single particle level, of the alkyl isomerisation catalysis of oleic acid and elaidic acid by a combination of visible micro-spectroscopy and fluorescence microscopy (both polarised wide-field and confocal modes). The large crystals did show the desired activity, albeit only traces of the isomerisation product were obtained and low conversions were achieved compared to commercial ferrierite powders. This limited activity is in line with their lower external non-basal surface area, supporting the hypothesis of pore mouth catalysis. Further evidence for the latter comes from visible micro-spectroscopy, which shows that the accumulation of aromatic species is limited to the crystal edges, while fluorescence microscopy strongly suggests the presence of polyenylic carbocations. Light polarisation associated with the spatial resolution of fluorescence microscopy reveals that these carbonaceous deposits are aligned only in the larger 10-MR channels of ferrierite at all crystal edges. The reaction is hence further limited to these specific pore mouths.

Original language	English
Pages (from-to)	199-210
Number of pages	12
Journal	Chemistry-A European Journal
Volume	22
Issue number	1
DOIs	https://doi.org/10.1002/chem.201503551
Publication status	Published - 4 Jan 2016

Funding

The authors thank Croda for financial support. V.R.R.M., J.K. and J.W. acknowledge financial support of this project by the German Science Foundation (DFG). We would also like to thank Marjan Versluijs-Helder (Utrecht University, UU) for performing the SEM analyses, while Marjolein Velthoen and Suzanne Verkleij (UU) are thanked for helping with the visible micro-spectroscopy. Negar Rashidi, Marvin Burger and Stephan Langelaar (Croda) contributed to this work by carrying out a number of syntheses and analyses.

Keywords

ferrierite
isomerisation
micro-spectroscopy
pore mouth catalysis
zeolites
LONG N-ALKANES
PT/H-ZSM-22 BIFUNCTIONAL CATALYST
TO-HYDROCARBONS REACTION
KEY-LOCK CATALYSIS
MOLECULAR-SIEVES
PARTICLE SPECTROSCOPY
NANOSCALE INFLUENCE
SHAPE SELECTIVITY
GUEST MOLECULES
ZEOLITE

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Wiedemann, S. C. C., Ristanovic, Z., Whiting, G. T., Marthala, V. R. R., Kaerger, J., Weitkamp, J., Wels, B., Bruijnincx, P. C. A., & Weckhuysen, B. M. (2016). Large Ferrierite Crystals as Models for Catalyst Deactivation during Skeletal Isomerisation of Oleic Acid: Evidence for Pore Mouth Catalysis. Chemistry-A European Journal, 22(1), 199-210. https://doi.org/10.1002/chem.201503551

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title = "Large Ferrierite Crystals as Models for Catalyst Deactivation during Skeletal Isomerisation of Oleic Acid: Evidence for Pore Mouth Catalysis",

abstract = "Large zeolite crystals of ferrierite have been used to study the deactivation, at the single particle level, of the alkyl isomerisation catalysis of oleic acid and elaidic acid by a combination of visible micro-spectroscopy and fluorescence microscopy (both polarised wide-field and confocal modes). The large crystals did show the desired activity, albeit only traces of the isomerisation product were obtained and low conversions were achieved compared to commercial ferrierite powders. This limited activity is in line with their lower external non-basal surface area, supporting the hypothesis of pore mouth catalysis. Further evidence for the latter comes from visible micro-spectroscopy, which shows that the accumulation of aromatic species is limited to the crystal edges, while fluorescence microscopy strongly suggests the presence of polyenylic carbocations. Light polarisation associated with the spatial resolution of fluorescence microscopy reveals that these carbonaceous deposits are aligned only in the larger 10-MR channels of ferrierite at all crystal edges. The reaction is hence further limited to these specific pore mouths.",

keywords = "ferrierite, isomerisation, micro-spectroscopy, pore mouth catalysis, zeolites, LONG N-ALKANES, PT/H-ZSM-22 BIFUNCTIONAL CATALYST, TO-HYDROCARBONS REACTION, KEY-LOCK CATALYSIS, MOLECULAR-SIEVES, PARTICLE SPECTROSCOPY, NANOSCALE INFLUENCE, SHAPE SELECTIVITY, GUEST MOLECULES, ZEOLITE",

author = "Wiedemann, \{Sophie C. C.\} and Zoran Ristanovic and Whiting, \{Gareth T.\} and Marthala, \{V. R. Reddy\} and Joerg Kaerger and Jens Weitkamp and Bas Wels and Bruijnincx, \{Pieter C. A.\} and Weckhuysen, \{Bert M.\}",

year = "2016",

month = jan,

day = "4",

doi = "10.1002/chem.201503551",

language = "English",

volume = "22",

pages = "199--210",

journal = "Chemistry-A European Journal",

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Wiedemann, SCC, Ristanovic, Z, Whiting, GT, Marthala, VRR, Kaerger, J, Weitkamp, J, Wels, B, Bruijnincx, PCA & Weckhuysen, BM 2016, 'Large Ferrierite Crystals as Models for Catalyst Deactivation during Skeletal Isomerisation of Oleic Acid: Evidence for Pore Mouth Catalysis', Chemistry-A European Journal, vol. 22, no. 1, pp. 199-210. https://doi.org/10.1002/chem.201503551

TY - JOUR

T1 - Large Ferrierite Crystals as Models for Catalyst Deactivation during Skeletal Isomerisation of Oleic Acid

T2 - Evidence for Pore Mouth Catalysis

AU - Wiedemann, Sophie C. C.

AU - Ristanovic, Zoran

AU - Whiting, Gareth T.

AU - Marthala, V. R. Reddy

AU - Kaerger, Joerg

AU - Weitkamp, Jens

AU - Wels, Bas

AU - Bruijnincx, Pieter C. A.

AU - Weckhuysen, Bert M.

PY - 2016/1/4

Y1 - 2016/1/4

N2 - Large zeolite crystals of ferrierite have been used to study the deactivation, at the single particle level, of the alkyl isomerisation catalysis of oleic acid and elaidic acid by a combination of visible micro-spectroscopy and fluorescence microscopy (both polarised wide-field and confocal modes). The large crystals did show the desired activity, albeit only traces of the isomerisation product were obtained and low conversions were achieved compared to commercial ferrierite powders. This limited activity is in line with their lower external non-basal surface area, supporting the hypothesis of pore mouth catalysis. Further evidence for the latter comes from visible micro-spectroscopy, which shows that the accumulation of aromatic species is limited to the crystal edges, while fluorescence microscopy strongly suggests the presence of polyenylic carbocations. Light polarisation associated with the spatial resolution of fluorescence microscopy reveals that these carbonaceous deposits are aligned only in the larger 10-MR channels of ferrierite at all crystal edges. The reaction is hence further limited to these specific pore mouths.

AB - Large zeolite crystals of ferrierite have been used to study the deactivation, at the single particle level, of the alkyl isomerisation catalysis of oleic acid and elaidic acid by a combination of visible micro-spectroscopy and fluorescence microscopy (both polarised wide-field and confocal modes). The large crystals did show the desired activity, albeit only traces of the isomerisation product were obtained and low conversions were achieved compared to commercial ferrierite powders. This limited activity is in line with their lower external non-basal surface area, supporting the hypothesis of pore mouth catalysis. Further evidence for the latter comes from visible micro-spectroscopy, which shows that the accumulation of aromatic species is limited to the crystal edges, while fluorescence microscopy strongly suggests the presence of polyenylic carbocations. Light polarisation associated with the spatial resolution of fluorescence microscopy reveals that these carbonaceous deposits are aligned only in the larger 10-MR channels of ferrierite at all crystal edges. The reaction is hence further limited to these specific pore mouths.

KW - ferrierite

KW - isomerisation

KW - micro-spectroscopy

KW - pore mouth catalysis

KW - zeolites

KW - LONG N-ALKANES

KW - PT/H-ZSM-22 BIFUNCTIONAL CATALYST

KW - TO-HYDROCARBONS REACTION

KW - KEY-LOCK CATALYSIS

KW - MOLECULAR-SIEVES

KW - PARTICLE SPECTROSCOPY

KW - NANOSCALE INFLUENCE

KW - SHAPE SELECTIVITY

KW - GUEST MOLECULES

KW - ZEOLITE

U2 - 10.1002/chem.201503551

DO - 10.1002/chem.201503551

M3 - Article

SN - 0947-6539

VL - 22

SP - 199

EP - 210

JO - Chemistry-A European Journal

JF - Chemistry-A European Journal

IS - 1

ER -

Large Ferrierite Crystals as Models for Catalyst Deactivation during Skeletal Isomerisation of Oleic Acid: Evidence for Pore Mouth Catalysis

Abstract

Funding

Keywords

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