Nested Metal Catalysts: Metal Atoms and Clusters Stabilized by Confinement with Accessibility on Supports

Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstablesusceptible to sinteringespecially under reducing conditions. Embedding the metals in supports such as organic polymers, me...

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Published in	Precision Chemistry Vol. 1; no. 1; pp. 3 - 13
Main Authors	Gates, Bruce C., Katz, Alexander, Liu, Jingyue
Format	Journal Article
Language	English
Published	United States University of Science and Technology of China and American Chemical Society 27.03.2023 American Chemical Society
Subjects	atomically dispersed metal catalysts catalyst synthesis catalyst synthesis, supported metal catalysts, encapsulated catalysts, nested catalysts, atomically dispersed metal catalysts catalysts encapsulated catalysts INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY MATERIALS SCIENCE metal clusters metals nested catalysts platinum supported metal catalysts zeolites encapsulated catalysts atomically dispersed metal catalysts supported metal catalysts nested catalysts catalyst synthesis
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ISSN	2771-9316 2771-9316
DOI	10.1021/prechem.2c00011

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Abstract	Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstablesusceptible to sinteringespecially under reducing conditions. Embedding the metals in supports such as organic polymers, metal oxides, and zeolites confers stability on the metals but at the cost of catalytic activity associated with the lack of accessibility of metal bonding sites to reactants. An approach to stabilizing noble metal catalysts while maintaining their accessibility involves anchoring them in molecular-scale nests that are in or on supports. The nests include zeolite pore mouths, zeolite surface cups (half-cages), raft-like islands of oxophilic metals bonded to metal oxide supports, clusters of non-noble metals (e.g., hosting noble metals as single-atom alloys), and nanoscale metal oxide islands that selectively bond to the catalytic metals, isolating them from the support. These examples illustrate a trend toward precision in the synthesis of solid catalysts, and the latter two classes of nested catalysts offer realistic prospects for economical large-scale application.
AbstractList	Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstablesusceptible to sinteringespecially under reducing conditions. Embedding the metals in supports such as organic polymers, metal oxides, and zeolites confers stability on the metals but at the cost of catalytic activity associated with the lack of accessibility of metal bonding sites to reactants. An approach to stabilizing noble metal catalysts while maintaining their accessibility involves anchoring them in molecular-scale nests that are in or on supports. The nests include zeolite pore mouths, zeolite surface cups (half-cages), raft-like islands of oxophilic metals bonded to metal oxide supports, clusters of non-noble metals (e.g., hosting noble metals as single-atom alloys), and nanoscale metal oxide islands that selectively bond to the catalytic metals, isolating them from the support. These examples illustrate a trend toward precision in the synthesis of solid catalysts, and the latter two classes of nested catalysts offer realistic prospects for economical large-scale application. Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstable—susceptible to sintering—especially under reducing conditions. Embedding the metals in supports such as organic polymers, metal oxides, and zeolites confers stability on the metals, but at the cost of catalytic activity associated with the lack of accessibility of metal bonding sites to reactants. An approach to stabilizing noble metal catalysts while maintaining their accessibility involves anchoring them in molecular-scale nests that are in or on supports. The nests include zeolite pore mouths; zeolite surface cups (half-cages); raft-like islands of oxophilic metals bonded to metal oxide supports; clusters of non-noble metals (e.g., hosting noble metals as single-atom alloys); and nano-scale metal oxide islands that selectively bond to the catalytic metals, isolating them from the support. These examples illustrate a trend toward precision in synthesis of solid catalysts, and the latter two classes of nested catalysts offer realistic prospects for economical large-scale application. Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstablesusceptible to sinteringespecially under reducing conditions. Embedding the metals in supports such as organic polymers, metal oxides, and zeolites confers stability on the metals but at the cost of catalytic activity associated with the lack of accessibility of metal bonding sites to reactants. An approach to stabilizing noble metal catalysts while maintaining their accessibility involves anchoring them in molecular-scale nests that are in or on supports. The nests include zeolite pore mouths, zeolite surface cups (half-cages), raft-like islands of oxophilic metals bonded to metal oxide supports, clusters of non-noble metals (e.g., hosting noble metals as single-atom alloys), and nanoscale metal oxide islands that selectively bond to the catalytic metals, isolating them from the support. These examples illustrate a trend toward precision in the synthesis of solid catalysts, and the latter two classes of nested catalysts offer realistic prospects for economical large-scale application. Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstable-susceptible to sintering-especially under reducing conditions. Embedding the metals in supports such as organic polymers, metal oxides, and zeolites confers stability on the metals but at the cost of catalytic activity associated with the lack of accessibility of metal bonding sites to reactants. An approach to stabilizing noble metal catalysts while maintaining their accessibility involves anchoring them in molecular-scale nests that are in or on supports. The nests include zeolite pore mouths, zeolite surface cups (half-cages), raft-like islands of oxophilic metals bonded to metal oxide supports, clusters of non-noble metals (e.g., hosting noble metals as single-atom alloys), and nanoscale metal oxide islands that selectively bond to the catalytic metals, isolating them from the support. These examples illustrate a trend toward precision in the synthesis of solid catalysts, and the latter two classes of nested catalysts offer realistic prospects for economical large-scale application.Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstable-susceptible to sintering-especially under reducing conditions. Embedding the metals in supports such as organic polymers, metal oxides, and zeolites confers stability on the metals but at the cost of catalytic activity associated with the lack of accessibility of metal bonding sites to reactants. An approach to stabilizing noble metal catalysts while maintaining their accessibility involves anchoring them in molecular-scale nests that are in or on supports. The nests include zeolite pore mouths, zeolite surface cups (half-cages), raft-like islands of oxophilic metals bonded to metal oxide supports, clusters of non-noble metals (e.g., hosting noble metals as single-atom alloys), and nanoscale metal oxide islands that selectively bond to the catalytic metals, isolating them from the support. These examples illustrate a trend toward precision in the synthesis of solid catalysts, and the latter two classes of nested catalysts offer realistic prospects for economical large-scale application. Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are typically unstable-susceptible to sintering-especially under reducing conditions. Embedding the metals in supports such as organic polymers, metal oxides, and zeolites confers stability on the metals but at the cost of catalytic activity associated with the lack of accessibility of metal bonding sites to reactants. An approach to stabilizing noble metal catalysts while maintaining their accessibility involves anchoring them in molecular-scale nests that are in or on supports. The nests include zeolite pore mouths, zeolite surface cups (half-cages), raft-like islands of oxophilic metals bonded to metal oxide supports, clusters of non-noble metals (e.g., hosting noble metals as single-atom alloys), and nanoscale metal oxide islands that selectively bond to the catalytic metals, isolating them from the support. These examples illustrate a trend toward precision in the synthesis of solid catalysts, and the latter two classes of nested catalysts offer realistic prospects for economical large-scale application.
Author	Katz, Alexander Liu, Jingyue Gates, Bruce C.
AuthorAffiliation	Department of Chemical Engineering Department of Chemical and Biomolecular Engineering Department of Physics
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Author_xml	– sequence: 1 givenname: Bruce C. orcidid: 0000-0003-0274-4882 surname: Gates fullname: Gates, Bruce C. email: bcgates@ucdavis.edu organization: Department of Chemical Engineering – sequence: 2 givenname: Alexander orcidid: 0000-0003-3487-7049 surname: Katz fullname: Katz, Alexander organization: Department of Chemical and Biomolecular Engineering – sequence: 3 givenname: Jingyue surname: Liu fullname: Liu, Jingyue organization: Department of Physics
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Keywords	encapsulated catalysts atomically dispersed metal catalysts supported metal catalysts nested catalysts catalyst synthesis
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Snippet	Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are... Supported catalysts that are important in technology prominently include atomically dispersed metals and metal clusters. When the metals are noble, they are...
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SubjectTerms	atomically dispersed metal catalysts catalyst synthesis catalyst synthesis, supported metal catalysts, encapsulated catalysts, nested catalysts, atomically dispersed metal catalysts catalysts encapsulated catalysts INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY MATERIALS SCIENCE metal clusters metals nested catalysts platinum supported metal catalysts zeolites
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Title	Nested Metal Catalysts: Metal Atoms and Clusters Stabilized by Confinement with Accessibility on Supports
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