Advances in the synthesis, characterisation, and mechanistic understanding of active sites in Fe-zeolites for redox catalysts

Max L. Bols; Hannah M. Rhoda; Benjamin E.R. Snyder; Edward I. Solomon; Kristine Pierloot; Robert A. Schoonheydt; Bert F. Sels

doi:10.1039/d0dt01857k

Advances in the synthesis, characterisation, and mechanistic understanding of active sites in Fe-zeolites for redox catalysts

Max L. Bols, Hannah M. Rhoda, Benjamin E.R. Snyder, Edward I. Solomon, Kristine Pierloot, Robert A. Schoonheydt, Bert F. Sels

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

Abstract

The recent research developments on the active sites in Fe-zeolites for redox catalysis are discussed. Building on the characterisation of the α-Fe/α-O active sites in the beta and chabazite zeolites, we demonstrate a bottom-up approach to successfully understand and develop Fe-zeolite catalysts. We use the room temperature benzene to phenol reaction as a relevant example. We then suggest how the spectroscopic identification of other monomeric and dimeric iron sites could be tackled. The challenges in the characterisation of active sites and intermediates in NOX selective catalytic reduction catalysts and further development of catalysts for mild partial methane oxidation are briefly discussed.

Original language	English (US)
Pages (from-to)	14749-14757
Number of pages	9
Journal	Dalton Transactions
Volume	49
Issue number	42
DOIs	https://doi.org/10.1039/d0dt01857k
State	Published - Nov 14 2020
Externally published	Yes

ASJC Scopus subject areas

Inorganic Chemistry

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10.1039/d0dt01857k

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title = "Advances in the synthesis, characterisation, and mechanistic understanding of active sites in Fe-zeolites for redox catalysts",

abstract = "The recent research developments on the active sites in Fe-zeolites for redox catalysis are discussed. Building on the characterisation of the α-Fe/α-O active sites in the beta and chabazite zeolites, we demonstrate a bottom-up approach to successfully understand and develop Fe-zeolite catalysts. We use the room temperature benzene to phenol reaction as a relevant example. We then suggest how the spectroscopic identification of other monomeric and dimeric iron sites could be tackled. The challenges in the characterisation of active sites and intermediates in NOX selective catalytic reduction catalysts and further development of catalysts for mild partial methane oxidation are briefly discussed.",

author = "Bols, {Max L.} and Rhoda, {Hannah M.} and Snyder, {Benjamin E.R.} and Solomon, {Edward I.} and Kristine Pierloot and Schoonheydt, {Robert A.} and Sels, {Bert F.}",

note = "Funding Information: Funding was provided by Research Foundation Flanders (FWO Grant G0A2216N to B. F. S., K. P. and R. A. S.) and the National Science Foundation (grant CHE-1660611 to E. I. S.). B. E. R. S. acknowledges support from the National Science Foundation Graduate Research Fellowship Program under grant DGE-11474, and from the Munger, Pollock, Reynolds, Robinson, Smith & Yoedicke Stanford Graduate Fellowship. Publisher Copyright: {\textcopyright} The Royal Society of Chemistry.",

year = "2020",

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doi = "10.1039/d0dt01857k",

language = "English (US)",

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journal = "Dalton Transactions",

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publisher = "Royal Society of Chemistry",

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T1 - Advances in the synthesis, characterisation, and mechanistic understanding of active sites in Fe-zeolites for redox catalysts

AU - Bols, Max L.

AU - Rhoda, Hannah M.

AU - Snyder, Benjamin E.R.

AU - Solomon, Edward I.

AU - Pierloot, Kristine

AU - Schoonheydt, Robert A.

AU - Sels, Bert F.

N1 - Funding Information: Funding was provided by Research Foundation Flanders (FWO Grant G0A2216N to B. F. S., K. P. and R. A. S.) and the National Science Foundation (grant CHE-1660611 to E. I. S.). B. E. R. S. acknowledges support from the National Science Foundation Graduate Research Fellowship Program under grant DGE-11474, and from the Munger, Pollock, Reynolds, Robinson, Smith & Yoedicke Stanford Graduate Fellowship. Publisher Copyright: © The Royal Society of Chemistry.

PY - 2020/11/14

Y1 - 2020/11/14

N2 - The recent research developments on the active sites in Fe-zeolites for redox catalysis are discussed. Building on the characterisation of the α-Fe/α-O active sites in the beta and chabazite zeolites, we demonstrate a bottom-up approach to successfully understand and develop Fe-zeolite catalysts. We use the room temperature benzene to phenol reaction as a relevant example. We then suggest how the spectroscopic identification of other monomeric and dimeric iron sites could be tackled. The challenges in the characterisation of active sites and intermediates in NOX selective catalytic reduction catalysts and further development of catalysts for mild partial methane oxidation are briefly discussed.

AB - The recent research developments on the active sites in Fe-zeolites for redox catalysis are discussed. Building on the characterisation of the α-Fe/α-O active sites in the beta and chabazite zeolites, we demonstrate a bottom-up approach to successfully understand and develop Fe-zeolite catalysts. We use the room temperature benzene to phenol reaction as a relevant example. We then suggest how the spectroscopic identification of other monomeric and dimeric iron sites could be tackled. The challenges in the characterisation of active sites and intermediates in NOX selective catalytic reduction catalysts and further development of catalysts for mild partial methane oxidation are briefly discussed.

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Advances in the synthesis, characterisation, and mechanistic understanding of active sites in Fe-zeolites for redox catalysts

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