A State-of-the-Art Heterogeneous Catalyst for Efficient and General Nitrile Hydrogenation

Dario Formenti; Rita Mocci; Hanan Atia; Sarim Dastgir; Muhammad Anwar; Stephan Bachmann; Michelangelo Scalone; Kathrin Junge; Matthias Beller

doi:10.1002/chem.202001866

A State-of-the-Art Heterogeneous Catalyst for Efficient and General Nitrile Hydrogenation

Dario Formenti, Rita Mocci, Hanan Atia, Sarim Dastgir, Muhammad Anwar, Stephan Bachmann, Michelangelo Scalone, Kathrin Junge, Matthias Beller^*

^*Corresponding author for this work

QEERI - Energy Center

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

37 Citations (Scopus)

Abstract

Cobalt-doped hybrid materials consisting of metal oxides and carbon derived from chitin were prepared, characterized and tested for industrially relevant nitrile hydrogenations. The optimal catalyst supported onto MgO showed, after pyrolysis at 700 °C, magnesium oxide nanocubes decorated with carbon-enveloped Co nanoparticles. This special structure allows for the selective hydrogenation of diverse and demanding nitriles to the corresponding primary amines under mild conditions (e.g. 70 °C, 20 bar H₂). The advantage of this novel catalytic material is showcased for industrially important substrates, including adipodinitrile, picolinonitrile, and fatty acid nitriles. Notably, the developed system outperformed all other tested commercial catalysts, for example, Raney Nickel and even noble-metal-based systems in these transformations.

Original language	English
Pages (from-to)	15589-15595
Number of pages	7
Journal	Chemistry - A European Journal
Volume	26
Issue number	67
DOIs	https://doi.org/10.1002/chem.202001866
Publication status	Published - 1 Dec 2020

Keywords

amines
cobalt
heterogeneous catalysis
hydrogenation
magnesium oxide

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10.1002/chem.202001866

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title = "A State-of-the-Art Heterogeneous Catalyst for Efficient and General Nitrile Hydrogenation",

abstract = "Cobalt-doped hybrid materials consisting of metal oxides and carbon derived from chitin were prepared, characterized and tested for industrially relevant nitrile hydrogenations. The optimal catalyst supported onto MgO showed, after pyrolysis at 700 °C, magnesium oxide nanocubes decorated with carbon-enveloped Co nanoparticles. This special structure allows for the selective hydrogenation of diverse and demanding nitriles to the corresponding primary amines under mild conditions (e.g. 70 °C, 20 bar H2). The advantage of this novel catalytic material is showcased for industrially important substrates, including adipodinitrile, picolinonitrile, and fatty acid nitriles. Notably, the developed system outperformed all other tested commercial catalysts, for example, Raney Nickel and even noble-metal-based systems in these transformations.",

keywords = "amines, cobalt, heterogeneous catalysis, hydrogenation, magnesium oxide",

author = "Dario Formenti and Rita Mocci and Hanan Atia and Sarim Dastgir and Muhammad Anwar and Stephan Bachmann and Michelangelo Scalone and Kathrin Junge and Matthias Beller",

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T1 - A State-of-the-Art Heterogeneous Catalyst for Efficient and General Nitrile Hydrogenation

AU - Formenti, Dario

AU - Mocci, Rita

AU - Atia, Hanan

AU - Dastgir, Sarim

AU - Anwar, Muhammad

AU - Bachmann, Stephan

AU - Scalone, Michelangelo

AU - Junge, Kathrin

AU - Beller, Matthias

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Cobalt-doped hybrid materials consisting of metal oxides and carbon derived from chitin were prepared, characterized and tested for industrially relevant nitrile hydrogenations. The optimal catalyst supported onto MgO showed, after pyrolysis at 700 °C, magnesium oxide nanocubes decorated with carbon-enveloped Co nanoparticles. This special structure allows for the selective hydrogenation of diverse and demanding nitriles to the corresponding primary amines under mild conditions (e.g. 70 °C, 20 bar H2). The advantage of this novel catalytic material is showcased for industrially important substrates, including adipodinitrile, picolinonitrile, and fatty acid nitriles. Notably, the developed system outperformed all other tested commercial catalysts, for example, Raney Nickel and even noble-metal-based systems in these transformations.

AB - Cobalt-doped hybrid materials consisting of metal oxides and carbon derived from chitin were prepared, characterized and tested for industrially relevant nitrile hydrogenations. The optimal catalyst supported onto MgO showed, after pyrolysis at 700 °C, magnesium oxide nanocubes decorated with carbon-enveloped Co nanoparticles. This special structure allows for the selective hydrogenation of diverse and demanding nitriles to the corresponding primary amines under mild conditions (e.g. 70 °C, 20 bar H2). The advantage of this novel catalytic material is showcased for industrially important substrates, including adipodinitrile, picolinonitrile, and fatty acid nitriles. Notably, the developed system outperformed all other tested commercial catalysts, for example, Raney Nickel and even noble-metal-based systems in these transformations.

KW - amines

KW - cobalt

KW - heterogeneous catalysis

KW - hydrogenation

KW - magnesium oxide

UR - https://www.scopus.com/pages/publications/85091355683

U2 - 10.1002/chem.202001866

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JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 67

ER -

A State-of-the-Art Heterogeneous Catalyst for Efficient and General Nitrile Hydrogenation

Abstract

Keywords

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