Spectroscopic investigation into the nature of the active sites for epoxidation reactions using vanadium-based aluminophosphate catalysts
Spectroscopic investigation into the nature of the active sites for epoxidation reactions using vanadium-based aluminophosphate catalysts
VAlPO-5 and VAlPO-11 catalysts were synthesized and their structural features characterized by a range of spectroscopic techniques (UV–Vis, Raman and IR spectroscopies) revealing valuable information on the nature of the incorporated vanadium species. A preliminary investigation into the catalytic potential of these catalysts was carried out by studying the epoxidation of cyclopentene to its corresponding epoxide using a solid source of “active” oxygen, acetylperoxyborate (APB) as the oxidant. UV–Vis spectra showed strong bands in the 40,000–35,000 cm?1 range, that can be assigned to isolated Td-like oxovanadium(V) (V5+ = O vanadyls), along with a component around 35,000 cm?1 due to a small fraction of Td V5+ = O in di- or oligomeric VxOy clusters. The V5+ = O ions were reversibly transformed to V4+ = O species by reduction, and could also change their coordination (to octahedral geometry) in the presence of water molecules. The presence of isolated V5+ = O was confirmed by resonant Raman studies. IR spectroscopy of adsorbed probes (CO and NO) revealed the presence of two families of framework V4+ = O ions with different Lewis acidity forming monocarbonyls (bands at 2192 cm?1 and 2184 cm?1) and di-nitrosyls (bands at 1905–1755 cm?1 and 1835–1680 cm?1). Small differences in the local environment of the vanadyl ions (symmetry, defects), that can have an influence over their Lewis acidity, did not play a major role in influencing the overall product selectivity, whilst the differences in rate and turnover frequency could be explained on the basis of the differing pore diameters of the two catalysts.
epoxidation, vanadium aluminophosphates, dr uv–vis spectroscopy, resonant raman, ftir
167-175
Vishnuvarthan, Muthusamy
75dc1774-3e7b-42d1-ac1e-f857b674d4a1
Paterson, A. James
1d034012-e93a-4bb8-bcc0-ca561e9597ad
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Piovano, Andrea
c025155b-4cff-4187-8aa3-622522e21fe0
Bonino, Francesca
5db1eda4-4349-4399-be18-1b407b3e3a0c
Gianotti, Enrica
2496d8d3-780f-4fe0-a43e-147e68331078
Berlier, Gloria
0cb473fd-4ad0-4e33-8427-c62dbe30ae19
February 2011
Vishnuvarthan, Muthusamy
75dc1774-3e7b-42d1-ac1e-f857b674d4a1
Paterson, A. James
1d034012-e93a-4bb8-bcc0-ca561e9597ad
Raja, Robert
74faf442-38a6-4ac1-84f9-b3c039cb392b
Piovano, Andrea
c025155b-4cff-4187-8aa3-622522e21fe0
Bonino, Francesca
5db1eda4-4349-4399-be18-1b407b3e3a0c
Gianotti, Enrica
2496d8d3-780f-4fe0-a43e-147e68331078
Berlier, Gloria
0cb473fd-4ad0-4e33-8427-c62dbe30ae19
Vishnuvarthan, Muthusamy, Paterson, A. James, Raja, Robert, Piovano, Andrea, Bonino, Francesca, Gianotti, Enrica and Berlier, Gloria
(2011)
Spectroscopic investigation into the nature of the active sites for epoxidation reactions using vanadium-based aluminophosphate catalysts.
Microporous and Mesoporous Materials, 138 (1-3), .
(doi:10.1016/j.micromeso.2010.09.010).
Abstract
VAlPO-5 and VAlPO-11 catalysts were synthesized and their structural features characterized by a range of spectroscopic techniques (UV–Vis, Raman and IR spectroscopies) revealing valuable information on the nature of the incorporated vanadium species. A preliminary investigation into the catalytic potential of these catalysts was carried out by studying the epoxidation of cyclopentene to its corresponding epoxide using a solid source of “active” oxygen, acetylperoxyborate (APB) as the oxidant. UV–Vis spectra showed strong bands in the 40,000–35,000 cm?1 range, that can be assigned to isolated Td-like oxovanadium(V) (V5+ = O vanadyls), along with a component around 35,000 cm?1 due to a small fraction of Td V5+ = O in di- or oligomeric VxOy clusters. The V5+ = O ions were reversibly transformed to V4+ = O species by reduction, and could also change their coordination (to octahedral geometry) in the presence of water molecules. The presence of isolated V5+ = O was confirmed by resonant Raman studies. IR spectroscopy of adsorbed probes (CO and NO) revealed the presence of two families of framework V4+ = O ions with different Lewis acidity forming monocarbonyls (bands at 2192 cm?1 and 2184 cm?1) and di-nitrosyls (bands at 1905–1755 cm?1 and 1835–1680 cm?1). Small differences in the local environment of the vanadyl ions (symmetry, defects), that can have an influence over their Lewis acidity, did not play a major role in influencing the overall product selectivity, whilst the differences in rate and turnover frequency could be explained on the basis of the differing pore diameters of the two catalysts.
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Published date: February 2011
Keywords:
epoxidation, vanadium aluminophosphates, dr uv–vis spectroscopy, resonant raman, ftir
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Local EPrints ID: 176823
URI: http://eprints.soton.ac.uk/id/eprint/176823
PURE UUID: 7014d355-7182-497d-8daf-0aff70d17e9b
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Date deposited: 11 Mar 2011 14:05
Last modified: 14 Mar 2024 02:51
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Author:
Muthusamy Vishnuvarthan
Author:
A. James Paterson
Author:
Andrea Piovano
Author:
Francesca Bonino
Author:
Enrica Gianotti
Author:
Gloria Berlier
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