Catalytic hydrogenation of tertiary amides at low temperatures and pressures using bimetallic Pt/Re-based catalysts

R. Burch; C. Paun; X. M. Cao; P. Crawford; P. Goodrich; C. Hardacre; P. Hu; L. McLaughlin; J. Sá; J. M. Thompson

doi:10.1016/j.jcat.2011.07.007

Catalytic hydrogenation of tertiary amides at low temperatures and pressures using bimetallic Pt/Re-based catalysts

R. Burch, C. Paun, X. M. Cao, P. Crawford, P. Goodrich, C. Hardacre, P. Hu^*, L. McLaughlin, J. Sá, J. M. Thompson

^*Corresponding author for this work

Queen's University Belfast

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

Abstract

Hydrogenation of tertiary amides, in particular, N-methylpyrrolidin-2-one, can be efficiently facilitated by a TiO₂-supported bimetallic Pt/Re catalyst at low temperatures and pressures. Characterisation of the catalysts and kinetic tests have shown that the close interaction between the Re and Pt is crucial to the high activity observed. DFT calculations were used to examine a range of metal combinations and show that the role of the uncoordinated Re is to activate the CO and that of the Pt is as a hydrogenation catalyst, removing intermediates from the catalyst surface. The rate enhancement observed on the TiO₂ support is thought to be due to the presence of oxygen vacancies allowing adsorption and weakening of the CO bond.

Original language	English
Pages (from-to)	89-97
Number of pages	9
Journal	Journal of Catalysis
Volume	283
Issue number	1
DOIs	https://doi.org/10.1016/j.jcat.2011.07.007
Publication status	Published - 6 Oct 2011

Keywords

Amide
Bimetallic
DFT
Platinum
Rhenium
Titania

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title = "Catalytic hydrogenation of tertiary amides at low temperatures and pressures using bimetallic Pt/Re-based catalysts",

abstract = "Hydrogenation of tertiary amides, in particular, N-methylpyrrolidin-2-one, can be efficiently facilitated by a TiO2-supported bimetallic Pt/Re catalyst at low temperatures and pressures. Characterisation of the catalysts and kinetic tests have shown that the close interaction between the Re and Pt is crucial to the high activity observed. DFT calculations were used to examine a range of metal combinations and show that the role of the uncoordinated Re is to activate the CO and that of the Pt is as a hydrogenation catalyst, removing intermediates from the catalyst surface. The rate enhancement observed on the TiO2 support is thought to be due to the presence of oxygen vacancies allowing adsorption and weakening of the CO bond.",

keywords = "Amide, Bimetallic, DFT, Platinum, Rhenium, Titania",

author = "R. Burch and C. Paun and Cao, {X. M.} and P. Crawford and P. Goodrich and C. Hardacre and P. Hu and L. McLaughlin and J. S{\'a} and Thompson, {J. M.}",

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AU - Burch, R.

AU - Paun, C.

AU - Cao, X. M.

AU - Crawford, P.

AU - Goodrich, P.

AU - Hardacre, C.

AU - Hu, P.

AU - McLaughlin, L.

AU - Sá, J.

AU - Thompson, J. M.

PY - 2011/10/6

Y1 - 2011/10/6

N2 - Hydrogenation of tertiary amides, in particular, N-methylpyrrolidin-2-one, can be efficiently facilitated by a TiO2-supported bimetallic Pt/Re catalyst at low temperatures and pressures. Characterisation of the catalysts and kinetic tests have shown that the close interaction between the Re and Pt is crucial to the high activity observed. DFT calculations were used to examine a range of metal combinations and show that the role of the uncoordinated Re is to activate the CO and that of the Pt is as a hydrogenation catalyst, removing intermediates from the catalyst surface. The rate enhancement observed on the TiO2 support is thought to be due to the presence of oxygen vacancies allowing adsorption and weakening of the CO bond.

AB - Hydrogenation of tertiary amides, in particular, N-methylpyrrolidin-2-one, can be efficiently facilitated by a TiO2-supported bimetallic Pt/Re catalyst at low temperatures and pressures. Characterisation of the catalysts and kinetic tests have shown that the close interaction between the Re and Pt is crucial to the high activity observed. DFT calculations were used to examine a range of metal combinations and show that the role of the uncoordinated Re is to activate the CO and that of the Pt is as a hydrogenation catalyst, removing intermediates from the catalyst surface. The rate enhancement observed on the TiO2 support is thought to be due to the presence of oxygen vacancies allowing adsorption and weakening of the CO bond.

KW - Amide

KW - Bimetallic

KW - DFT

KW - Platinum

KW - Rhenium

KW - Titania

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JO - Journal of Catalysis

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Catalytic hydrogenation of tertiary amides at low temperatures and pressures using bimetallic Pt/Re-based catalysts

Abstract

Keywords

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