On the role of aluminum in the selective oxidation of benzene to phenol by nitrous oxide over iron-containing MFI zeolites: an in situ Fe XANES study

E.J.M. Hensen; Q. Zhu; P.H. Liu; K.J. Chao; R.A. Santen, van

doi:10.1016/j.jcat.2004.06.010

On the role of aluminum in the selective oxidation of benzene to phenol by nitrous oxide over iron-containing MFI zeolites: an in situ Fe XANES study

E.J.M. Hensen
, Q. Zhu
, P.H. Liu
, K.J. Chao
, R.A. Santen, van

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

61 Citaten (Scopus)

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In situ Fe K-edge XANES experiments point to a distinct difference in reducibility of iron in Fe-silicalite (without aluminum) and FeZSM-5 (with aluminum) upon dehydration. Whereas a noticeable part of Fe3+ is reduced to ferrous ions in the iron-containing aluminosilicalite, the ferric species in the ferrosilicalite maintain their oxidation state. The ability to selectively oxidize benzene to phenol with nitrous oxide in ferroaluminosilicalite relates to these Fe2+ centers. It is proposed that the large difference in reactivity between ferroaluminosilicalite and ferrosilicalite is due to the chemical difference of iron in FeOAl and FeOFe adducts. A new preparation method is introduced which leads to more selective and stable catalysts.

Originele taal-2	Engels
Pagina's (van-tot)	466-470
Aantal pagina's	5
Tijdschrift	Journal of Catalysis
Volume	226
Nummer van het tijdschrift	2
DOI's	https://doi.org/10.1016/j.jcat.2004.06.010
Status	Gepubliceerd - 2004

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title = "On the role of aluminum in the selective oxidation of benzene to phenol by nitrous oxide over iron-containing MFI zeolites: an in situ Fe XANES study",

abstract = "In situ Fe K-edge XANES experiments point to a distinct difference in reducibility of iron in Fe-silicalite (without aluminum) and FeZSM-5 (with aluminum) upon dehydration. Whereas a noticeable part of Fe3+ is reduced to ferrous ions in the iron-containing aluminosilicalite, the ferric species in the ferrosilicalite maintain their oxidation state. The ability to selectively oxidize benzene to phenol with nitrous oxide in ferroaluminosilicalite relates to these Fe2+ centers. It is proposed that the large difference in reactivity between ferroaluminosilicalite and ferrosilicalite is due to the chemical difference of iron in FeOAl and FeOFe adducts. A new preparation method is introduced which leads to more selective and stable catalysts.",

author = "E.J.M. Hensen and Q. Zhu and P.H. Liu and K.J. Chao and \{Santen, van\}, R.A.",

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AU - Hensen, E.J.M.

AU - Zhu, Q.

AU - Liu, P.H.

AU - Chao, K.J.

AU - Santen, van, R.A.

PY - 2004

Y1 - 2004

N2 - In situ Fe K-edge XANES experiments point to a distinct difference in reducibility of iron in Fe-silicalite (without aluminum) and FeZSM-5 (with aluminum) upon dehydration. Whereas a noticeable part of Fe3+ is reduced to ferrous ions in the iron-containing aluminosilicalite, the ferric species in the ferrosilicalite maintain their oxidation state. The ability to selectively oxidize benzene to phenol with nitrous oxide in ferroaluminosilicalite relates to these Fe2+ centers. It is proposed that the large difference in reactivity between ferroaluminosilicalite and ferrosilicalite is due to the chemical difference of iron in FeOAl and FeOFe adducts. A new preparation method is introduced which leads to more selective and stable catalysts.

AB - In situ Fe K-edge XANES experiments point to a distinct difference in reducibility of iron in Fe-silicalite (without aluminum) and FeZSM-5 (with aluminum) upon dehydration. Whereas a noticeable part of Fe3+ is reduced to ferrous ions in the iron-containing aluminosilicalite, the ferric species in the ferrosilicalite maintain their oxidation state. The ability to selectively oxidize benzene to phenol with nitrous oxide in ferroaluminosilicalite relates to these Fe2+ centers. It is proposed that the large difference in reactivity between ferroaluminosilicalite and ferrosilicalite is due to the chemical difference of iron in FeOAl and FeOFe adducts. A new preparation method is introduced which leads to more selective and stable catalysts.

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DO - 10.1016/j.jcat.2004.06.010

M3 - Article

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JO - Journal of Catalysis

JF - Journal of Catalysis

IS - 2

ER -

On the role of aluminum in the selective oxidation of benzene to phenol by nitrous oxide over iron-containing MFI zeolites: an in situ Fe XANES study

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