Mixed‐Valence Single‐Atom Catalyst Derived from Functionalized Graphene

Mixed‐Valence Single‐Atom Catalyst Derived from Functionalized Graphene

Single‐atom catalysts (SACs) aim at bridging the gap between homogeneous and heterogeneous catalysis. The challenge is the development of materials with ligands enabling coordination of metal atoms in different valence states, and preventing leaching or nanoparticle formation. Graphene functionalize...

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Veröffentlicht in:Advanced materials (Weinheim) 2019-04, Vol.31 (17), p.e1900323-n/a
Hauptverfasser: Bakandritsos, Aristides, Kadam, Ravishankar G., Kumar, Pawan, Zoppellaro, Giorgio, Medved', Miroslav, Tuček, Jiří, Montini, Tiziano, Tomanec, Ondřej, Andrýsková, Pavlína, Drahoš, Bohuslav, Varma, Rajender S., Otyepka, Michal, Gawande, Manoj B., Fornasiero, Paolo, Zbořil, Radek
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Sprache:eng
Schlagworte:
amine coupling
Amines
Catalysis
Charge transfer
cooperative catalysis
CH oxidation
Entrapment
Functional groups
Graphene
Leaching
Materials science
Nanoparticles
Oxidation
Reaction mechanisms
Recyclability
Single atom catalysts
single‐atom catalysis
Synergistic effect
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container_end_page n/a
container_issue 17
container_start_page e1900323
container_title Advanced materials (Weinheim)
container_volume 31
creator Bakandritsos, Aristides
Kadam, Ravishankar G.
Kumar, Pawan
Zoppellaro, Giorgio
Medved', Miroslav
Tuček, Jiří
Montini, Tiziano
Tomanec, Ondřej
Andrýsková, Pavlína
Drahoš, Bohuslav
Varma, Rajender S.
Otyepka, Michal
Gawande, Manoj B.
Fornasiero, Paolo
Zbořil, Radek
description Single‐atom catalysts (SACs) aim at bridging the gap between homogeneous and heterogeneous catalysis. The challenge is the development of materials with ligands enabling coordination of metal atoms in different valence states, and preventing leaching or nanoparticle formation. Graphene functionalized with nitrile groups (cyanographene) is herein employed for the robust coordination of Cu(II) ions, which are partially reduced to Cu(I) due to graphene‐induced charge transfer. Inspired by nature's selection of Cu(I) in enzymes for oxygen activation, this 2D mixed‐valence SAC performs flawlessly in two O2‐mediated reactions: the oxidative coupling of amines and the oxidation of benzylic CH bonds toward high‐value pharmaceutical synthons. High conversions (up to 98%), selectivities (up to 99%), and recyclability are attained with very low metal loadings in the reaction. The synergistic effect of Cu(II) and Cu(I) is the essential part in the reaction mechanism. The developed strategy opens the door to a broad portfolio of other SACs via their coordination to various functional groups of graphene, as demonstrated by successful entrapment of FeIII/FeII single atoms to carboxy‐graphene. Cyanographene facilitates robust coordination of Cu ions and realization of a mixed valence, single‐atom Cu(II)/Cu(I) catalyst. Oxidative coupling of amines and oxidation of benzylic CH bonds proceeds flawlessly with the Cu/cyanographene catalyst, mimicking nature's selection of Cu(I) in enzymes for oxygen activation and opening the door to heterogeneous and cooperative single‐atom catalysis.
doi_str_mv 10.1002/adma.201900323
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source Wiley Online Library Journals Frontfile Complete
subjects amine coupling
Amines
Catalysis
Charge transfer
cooperative catalysis
CH oxidation
Entrapment
Functional groups
Graphene
Leaching
Materials science
Nanoparticles
Oxidation
Reaction mechanisms
Recyclability
Single atom catalysts
single‐atom catalysis
Synergistic effect
title Mixed‐Valence Single‐Atom Catalyst Derived from Functionalized Graphene
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