Commercial Cu 2 Cr 2 O 5 Decorated with Iron Carbide Nanoparticles as a Multifunctional Catalyst for Magnetically Induced Continuous‐Flow Hydrogenation of Aromatic Ketones

Abstract Copper chromite is decorated with iron carbide nanoparticles, producing a magnetically activatable multifunctional catalytic system. This system (ICNPs@Cu 2 Cr 2 O 5 ) can reduce aromatic ketones to aromatic alcohols when exposed to magnetic induction. Under magnetic excitation, the ICNPs g...

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Published inAngewandte Chemie Vol. 133; no. 51; pp. 26843 - 26850
Main Authors Kreissl, Hannah, Jin, Jing, Lin, Sheng‐Hsiang, Schüette, Dirk, Störtte, Sven, Levin, Natalia, Chaudret, Bruno, Vorholt, Andreas J., Bordet, Alexis, Leitner, Walter
Format Journal Article
LanguageEnglish
Published 13.12.2021
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Abstract Abstract Copper chromite is decorated with iron carbide nanoparticles, producing a magnetically activatable multifunctional catalytic system. This system (ICNPs@Cu 2 Cr 2 O 5 ) can reduce aromatic ketones to aromatic alcohols when exposed to magnetic induction. Under magnetic excitation, the ICNPs generate locally confined hot spots, selectively activating the Cu 2 Cr 2 O 5 surface while the global temperature remains low (≈80 °C). The catalyst selectively hydrogenates a scope of benzylic and non‐benzylic ketones under mild conditions (3 bar H 2 , heptane), while ICNPs@Cu 2 Cr 2 O 5 or Cu 2 Cr 2 O 5 are inactive when the same global temperature is adjusted by conventional heating. A flow reactor is presented that allows the use of magnetic induction for continuous‐flow hydrogenation at elevated pressure. The excellent catalytic properties of ICNPs@Cu 2 Cr 2 O 5 for the hydrogenation of biomass‐derived furfuralacetone are conserved for at least 17 h on stream, demonstrating for the first time the application of a magnetically heated catalyst to a continuously operated hydrogenation reaction in the liquid phase.
AbstractList Abstract Copper chromite is decorated with iron carbide nanoparticles, producing a magnetically activatable multifunctional catalytic system. This system (ICNPs@Cu 2 Cr 2 O 5 ) can reduce aromatic ketones to aromatic alcohols when exposed to magnetic induction. Under magnetic excitation, the ICNPs generate locally confined hot spots, selectively activating the Cu 2 Cr 2 O 5 surface while the global temperature remains low (≈80 °C). The catalyst selectively hydrogenates a scope of benzylic and non‐benzylic ketones under mild conditions (3 bar H 2 , heptane), while ICNPs@Cu 2 Cr 2 O 5 or Cu 2 Cr 2 O 5 are inactive when the same global temperature is adjusted by conventional heating. A flow reactor is presented that allows the use of magnetic induction for continuous‐flow hydrogenation at elevated pressure. The excellent catalytic properties of ICNPs@Cu 2 Cr 2 O 5 for the hydrogenation of biomass‐derived furfuralacetone are conserved for at least 17 h on stream, demonstrating for the first time the application of a magnetically heated catalyst to a continuously operated hydrogenation reaction in the liquid phase.
Author Kreissl, Hannah
Vorholt, Andreas J.
Levin, Natalia
Jin, Jing
Schüette, Dirk
Chaudret, Bruno
Bordet, Alexis
Störtte, Sven
Leitner, Walter
Lin, Sheng‐Hsiang
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  surname: Lin
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  organization: Max Planck Institute for Chemical Energy Conversion 45470 Mülheim an der Ruhr Germany, Institut für Technische und Makromolekulare Chemie RWTH Aachen University Worringerweg 2 52074 Aachen Germany
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  givenname: Walter
  surname: Leitner
  fullname: Leitner, Walter
  organization: Max Planck Institute for Chemical Energy Conversion 45470 Mülheim an der Ruhr Germany, Institut für Technische und Makromolekulare Chemie RWTH Aachen University Worringerweg 2 52074 Aachen Germany
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