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Identification of active and spectator Sn sites in Sn-[Beta] following solid-state stannation, and consequences for Lewis acid catalysis

Identification of active and spectator Sn sites in Sn-[Beta] following solid-state stannation, and consequences for Lewis acid catalysis
Identification of active and spectator Sn sites in Sn-[Beta] following solid-state stannation, and consequences for Lewis acid catalysis
Lewis acidic zeolites are rapidly emerging liquid-phase Lewis acid catalysts. Nevertheless, their inefficient synthesis procedure currently prohibits greater utilization and exploitation of these promising materials. Herein, we demonstrate that SnIV-containing zeolite beta can readily be prepared both selectively and extremely rapidly by solid-state incorporation (SSI) method. Through a combination of spectroscopic (XRD, UV/Vis, X-ray absorption, magic-angle spinning NMR, and diffuse reflectance infrared Fourier transform spectroscopy) studies, we unambiguously demonstrate that site-isolated, isomorphously substituted SnIV sites dominate the Sn population up to a loading of 5?wt?% Sn. These sites are identical to those found in conventionally prepared Sn-beta, and result in our SSI material exhibiting identical levels of intrinsic activity (that is, turnover frequency) despite the threefold increase in Sn loading, and the extremely rapid and benign nature of our preparation methodology. We also identify the presence of spectator sites, in the form of SnIV oligomers, at higher levels of Sn loading. The consequences of this mixed population with regards to catalysis (Meerwein–Pondorf–Verley reaction and glucose isomerization) are also identified.
1867-3880
3322-3331
Hammond, Ceri
fcbbcd87-a902-4259-8dff-9380c92aa603
Padovan, Daniele
1a2263ef-ea8f-4ac2-a613-886b2f130e58
Al-Nayili, Abbas
47730055-c2ec-4bfc-9038-165e2860af3b
Wells, Peter
bc4fdc2d-a490-41bf-86cc-400edecf2266
Gibson, Emma K.
738c74e4-ab68-42fe-bda8-9d4a43669b31
Dimitratos, Nikolaos
a4385576-4a05-478b-8389-460bfb43412b
Hammond, Ceri
fcbbcd87-a902-4259-8dff-9380c92aa603
Padovan, Daniele
1a2263ef-ea8f-4ac2-a613-886b2f130e58
Al-Nayili, Abbas
47730055-c2ec-4bfc-9038-165e2860af3b
Wells, Peter
bc4fdc2d-a490-41bf-86cc-400edecf2266
Gibson, Emma K.
738c74e4-ab68-42fe-bda8-9d4a43669b31
Dimitratos, Nikolaos
a4385576-4a05-478b-8389-460bfb43412b

Hammond, Ceri, Padovan, Daniele, Al-Nayili, Abbas, Wells, Peter, Gibson, Emma K. and Dimitratos, Nikolaos (2015) Identification of active and spectator Sn sites in Sn-[Beta] following solid-state stannation, and consequences for Lewis acid catalysis. ChemCatChem, 7 (20), 3322-3331. (doi:10.1002/cctc.201500545).

Record type: Article

Abstract

Lewis acidic zeolites are rapidly emerging liquid-phase Lewis acid catalysts. Nevertheless, their inefficient synthesis procedure currently prohibits greater utilization and exploitation of these promising materials. Herein, we demonstrate that SnIV-containing zeolite beta can readily be prepared both selectively and extremely rapidly by solid-state incorporation (SSI) method. Through a combination of spectroscopic (XRD, UV/Vis, X-ray absorption, magic-angle spinning NMR, and diffuse reflectance infrared Fourier transform spectroscopy) studies, we unambiguously demonstrate that site-isolated, isomorphously substituted SnIV sites dominate the Sn population up to a loading of 5?wt?% Sn. These sites are identical to those found in conventionally prepared Sn-beta, and result in our SSI material exhibiting identical levels of intrinsic activity (that is, turnover frequency) despite the threefold increase in Sn loading, and the extremely rapid and benign nature of our preparation methodology. We also identify the presence of spectator sites, in the form of SnIV oligomers, at higher levels of Sn loading. The consequences of this mixed population with regards to catalysis (Meerwein–Pondorf–Verley reaction and glucose isomerization) are also identified.

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e-pub ahead of print date: 1 September 2015
Published date: 19 October 2015
Organisations: Organic Chemistry: SCF

Identifiers

Local EPrints ID: 400555
URI: http://eprints.soton.ac.uk/id/eprint/400555
DOI: doi:10.1002/cctc.201500545
ISSN: 1867-3880
PURE UUID: ded087ee-9369-447c-a711-8379f49e2189
ORCID for Peter Wells: ORCID iD orcid.org/0000-0002-0859-9172

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Date deposited: 19 Sep 2016 10:51
Last modified: 15 Mar 2024 03:24

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Contributors

Author: Ceri Hammond
Author: Daniele Padovan
Author: Abbas Al-Nayili
Author: Peter Wells ORCID iD
Author: Emma K. Gibson
Author: Nikolaos Dimitratos

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