Demonstration of chemistry at a point through restructuring and catalytic activation at anchored nanoparticles

Metal nanoparticles prepared by exsolution at the surface of perovskite oxides have been recently shown to enable new dimensions in catalysis and energy conversion and storage technologies owing to their socketed, well-anchored structure. Here we show that contrary to general belief, exsolved partic...

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Published in	Nature communications Vol. 8; no. 1; pp. 1855 - 8
Main Authors	Neagu, Dragos, Papaioannou, Evangelos I., Ramli, Wan K. W., Miller, David N., Murdoch, Billy J., Ménard, Hervé, Umar, Ahmed, Barlow, Anders J., Cumpson, Peter J., Irvine, John T. S., Metcalfe, Ian S.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 30.11.2017 Nature Publishing Group Nature Portfolio
Subjects	639/301/357/354 639/638/77/884 639/638/77/887 Catalysis Energy conversion Energy storage Humanities and Social Sciences multidisciplinary Nanoparticles Oxidation Oxides Platinum Science Science (multidisciplinary) Transformations
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Abstract	Metal nanoparticles prepared by exsolution at the surface of perovskite oxides have been recently shown to enable new dimensions in catalysis and energy conversion and storage technologies owing to their socketed, well-anchored structure. Here we show that contrary to general belief, exsolved particles do not necessarily re-dissolve back into the underlying perovskite upon oxidation. Instead, they may remain pinned to their initial locations, allowing one to subject them to further chemical transformations to alter their composition, structure and functionality dramatically, while preserving their initial spatial arrangement. We refer to this concept as chemistry at a point and illustrate it by tracking individual nanoparticles throughout various chemical transformations. We demonstrate its remarkable practical utility by preparing a nanostructured earth abundant metal catalyst which rivals platinum on a weight basis over hundreds of hours of operation. Our concept enables the design of compositionally diverse confined oxide particles with superior stability and catalytic reactivity. Metal nanoparticles prepared by exsolution at the surface of perovskite oxides are key species in catalysis and energy fields. Here, the authors develop a chemistry at a point concept by tracking individual nanoparticles with excellent activity and stability throughout various chemical transformations.
AbstractList	Metal nanoparticles prepared by exsolution at the surface of perovskite oxides have been recently shown to enable new dimensions in catalysis and energy conversion and storage technologies owing to their socketed, well-anchored structure. Here we show that contrary to general belief, exsolved particles do not necessarily re-dissolve back into the underlying perovskite upon oxidation. Instead, they may remain pinned to their initial locations, allowing one to subject them to further chemical transformations to alter their composition, structure and functionality dramatically, while preserving their initial spatial arrangement. We refer to this concept as chemistry at a point and illustrate it by tracking individual nanoparticles throughout various chemical transformations. We demonstrate its remarkable practical utility by preparing a nanostructured earth abundant metal catalyst which rivals platinum on a weight basis over hundreds of hours of operation. Our concept enables the design of compositionally diverse confined oxide particles with superior stability and catalytic reactivity. Metal nanoparticles prepared by exsolution at the surface of perovskite oxides are key species in catalysis and energy fields. Here, the authors develop a chemistry at a point concept by tracking individual nanoparticles with excellent activity and stability throughout various chemical transformations. Metal nanoparticles prepared by exsolution at the surface of perovskite oxides have been recently shown to enable new dimensions in catalysis and energy conversion and storage technologies owing to their socketed, well-anchored structure. Here we show that contrary to general belief, exsolved particles do not necessarily re-dissolve back into the underlying perovskite upon oxidation. Instead, they may remain pinned to their initial locations, allowing one to subject them to further chemical transformations to alter their composition, structure and functionality dramatically, while preserving their initial spatial arrangement. We refer to this concept as chemistry at a point and illustrate it by tracking individual nanoparticles throughout various chemical transformations. We demonstrate its remarkable practical utility by preparing a nanostructured earth abundant metal catalyst which rivals platinum on a weight basis over hundreds of hours of operation. Our concept enables the design of compositionally diverse confined oxide particles with superior stability and catalytic reactivity.Metal nanoparticles prepared by exsolution at the surface of perovskite oxides have been recently shown to enable new dimensions in catalysis and energy conversion and storage technologies owing to their socketed, well-anchored structure. Here we show that contrary to general belief, exsolved particles do not necessarily re-dissolve back into the underlying perovskite upon oxidation. Instead, they may remain pinned to their initial locations, allowing one to subject them to further chemical transformations to alter their composition, structure and functionality dramatically, while preserving their initial spatial arrangement. We refer to this concept as chemistry at a point and illustrate it by tracking individual nanoparticles throughout various chemical transformations. We demonstrate its remarkable practical utility by preparing a nanostructured earth abundant metal catalyst which rivals platinum on a weight basis over hundreds of hours of operation. Our concept enables the design of compositionally diverse confined oxide particles with superior stability and catalytic reactivity. Metal nanoparticles prepared by exsolution at the surface of perovskite oxides have been recently shown to enable new dimensions in catalysis and energy conversion and storage technologies owing to their socketed, well-anchored structure. Here we show that contrary to general belief, exsolved particles do not necessarily re-dissolve back into the underlying perovskite upon oxidation. Instead, they may remain pinned to their initial locations, allowing one to subject them to further chemical transformations to alter their composition, structure and functionality dramatically, while preserving their initial spatial arrangement. We refer to this concept as chemistry at a point and illustrate it by tracking individual nanoparticles throughout various chemical transformations. We demonstrate its remarkable practical utility by preparing a nanostructured earth abundant metal catalyst which rivals platinum on a weight basis over hundreds of hours of operation. Our concept enables the design of compositionally diverse confined oxide particles with superior stability and catalytic reactivity. Metal nanoparticles prepared by exsolution at the surface of perovskite oxides are key species in catalysis and energy fields. Here, the authors develop a chemistry at a point concept by tracking individual nanoparticles with excellent activity and stability throughout various chemical transformations.
ArticleNumber	1855
Author	Ménard, Hervé Neagu, Dragos Umar, Ahmed Murdoch, Billy J. Metcalfe, Ian S. Miller, David N. Ramli, Wan K. W. Irvine, John T. S. Cumpson, Peter J. Barlow, Anders J. Papaioannou, Evangelos I.
Author_xml	– sequence: 1 givenname: Dragos orcidid: 0000-0001-7208-1055 surname: Neagu fullname: Neagu, Dragos organization: School of Chemistry, University of St Andrews – sequence: 2 givenname: Evangelos I. surname: Papaioannou fullname: Papaioannou, Evangelos I. organization: School of Engineering, Newcastle University – sequence: 3 givenname: Wan K. W. surname: Ramli fullname: Ramli, Wan K. W. organization: School of Engineering, Newcastle University, School of Bioprocess Engineering, University Malaysia Perlis – sequence: 4 givenname: David N. surname: Miller fullname: Miller, David N. organization: School of Chemistry, University of St Andrews – sequence: 5 givenname: Billy J. surname: Murdoch fullname: Murdoch, Billy J. organization: National EPSRC XPS Users’ Service (NEXUS), School of Mechanical and Systems Engineering, Newcastle University – sequence: 6 givenname: Hervé surname: Ménard fullname: Ménard, Hervé organization: Sasol (UK) Ltd – sequence: 7 givenname: Ahmed surname: Umar fullname: Umar, Ahmed organization: School of Chemistry, University of St Andrews – sequence: 8 givenname: Anders J. surname: Barlow fullname: Barlow, Anders J. organization: National EPSRC XPS Users’ Service (NEXUS), School of Mechanical and Systems Engineering, Newcastle University – sequence: 9 givenname: Peter J. surname: Cumpson fullname: Cumpson, Peter J. organization: National EPSRC XPS Users’ Service (NEXUS), School of Mechanical and Systems Engineering, Newcastle University – sequence: 10 givenname: John T. S. orcidid: 0000-0002-8394-3359 surname: Irvine fullname: Irvine, John T. S. email: jtsi@st-and.ac.uk organization: School of Chemistry, University of St Andrews – sequence: 11 givenname: Ian S. surname: Metcalfe fullname: Metcalfe, Ian S. email: ian.metcalfe@newcastle.ac.uk organization: School of Engineering, Newcastle University
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/29187751$$D View this record in MEDLINE/PubMed
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Snippet	Metal nanoparticles prepared by exsolution at the surface of perovskite oxides have been recently shown to enable new dimensions in catalysis and energy... Metal nanoparticles prepared by exsolution at the surface of perovskite oxides are key species in catalysis and energy fields. Here, the authors develop a...
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SubjectTerms	639/301/357/354 639/638/77/884 639/638/77/887 Catalysis Energy conversion Energy storage Humanities and Social Sciences multidisciplinary Nanoparticles Oxidation Oxides Platinum Science Science (multidisciplinary) Transformations
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Title	Demonstration of chemistry at a point through restructuring and catalytic activation at anchored nanoparticles
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