Electronic and Geometric Structure of Ce3+ Forming Under Reducing Conditions in Shaped Ceria Nanoparticles Promoted by Platinum
The structure of Ce3+, which is responsible for the low-temperature oxygen storage capacity of ceria, was determined by high-energy-resolution fluorescence detected X-ray absorption spectroscopy at the Ce L3 and L1 edges. Well-defined ceria nanoparticles (rods, truncated octahedra, and cubes) were s...
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Published in | Journal of physical chemistry. C Vol. 118; no. 4; pp. 1974 - 1982 |
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Main Authors | , , , , , , , , , , |
Format | Journal Article |
Language | English |
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American Chemical Society
30.01.2014
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Abstract | The structure of Ce3+, which is responsible for the low-temperature oxygen storage capacity of ceria, was determined by high-energy-resolution fluorescence detected X-ray absorption spectroscopy at the Ce L3 and L1 edges. Well-defined ceria nanoparticles (rods, truncated octahedra, and cubes) were synthesized hydrothermally and promoted by platinum nanoparticles. The electronic structure of Ce3+ does not depend significantly on the nature of the exposed crystallographic planes of CeO2 particles; it does, however, differ from the electronic structure of known stable compounds containing Ce3+ ions, such as CeAlO3, Ce(NO3)3·6H2O, and Ce2Zr2O7. Theoretical simulation of Ce L1 and L3 X-ray absorption spectra, quantitative analysis of the oxygen storage capacity, and X-ray diffraction data suggest that Ce3+ ions form both at the surface and in the near-surface layer. Surface and bulk Ce3+ ions are characterized by elongated Ce–O distances in the first coordination shell and almost the same Ce–Ce distances in the second coordination shell with respect to Ce4+ in stoichiometric CeO2. Ce3+ ions on the surface of the nanoparticles surface may have a smaller number of oxygen neighbors (as low as six), while in the near-surface layer they tend to have an 8-fold coordination, thus producing oxygen deficit structures similar to Ce11O20. |
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AbstractList | The structure of Ce3+, which is responsible for the low-temperature oxygen storage capacity of ceria, was determined by high-energy-resolution fluorescence detected X-ray absorption spectroscopy at the Ce L3 and L1 edges. Well-defined ceria nanoparticles (rods, truncated octahedra, and cubes) were synthesized hydrothermally and promoted by platinum nanoparticles. The electronic structure of Ce3+ does not depend significantly on the nature of the exposed crystallographic planes of CeO2 particles; it does, however, differ from the electronic structure of known stable compounds containing Ce3+ ions, such as CeAlO3, Ce(NO3)3·6H2O, and Ce2Zr2O7. Theoretical simulation of Ce L1 and L3 X-ray absorption spectra, quantitative analysis of the oxygen storage capacity, and X-ray diffraction data suggest that Ce3+ ions form both at the surface and in the near-surface layer. Surface and bulk Ce3+ ions are characterized by elongated Ce–O distances in the first coordination shell and almost the same Ce–Ce distances in the second coordination shell with respect to Ce4+ in stoichiometric CeO2. Ce3+ ions on the surface of the nanoparticles surface may have a smaller number of oxygen neighbors (as low as six), while in the near-surface layer they tend to have an 8-fold coordination, thus producing oxygen deficit structures similar to Ce11O20. |
Author | Guda, A. A Smolentsev, N Szlachetko, J Safonova, O. V Nachtegaal, M Soldatov, M. A Paun, C Smolentsev, G Soldatov, A. V Abdala, P. M van Bokhoven, J. A |
AuthorAffiliation | ETH Zurich, Institute for Chemical and Bioengineering Southern Federal University Research Center for Nanoscale Structure of Matter Paul Scherrer Institut |
AuthorAffiliation_xml | – name: Paul Scherrer Institut – name: Southern Federal University – name: ETH Zurich, Institute for Chemical and Bioengineering – name: Research Center for Nanoscale Structure of Matter |
Author_xml | – sequence: 1 givenname: O. V surname: Safonova fullname: Safonova, O. V email: olga.safonova@psi.ch – sequence: 2 givenname: A. A surname: Guda fullname: Guda, A. A – sequence: 3 givenname: C surname: Paun fullname: Paun, C – sequence: 4 givenname: N surname: Smolentsev fullname: Smolentsev, N – sequence: 5 givenname: P. M surname: Abdala fullname: Abdala, P. M – sequence: 6 givenname: G surname: Smolentsev fullname: Smolentsev, G – sequence: 7 givenname: M surname: Nachtegaal fullname: Nachtegaal, M – sequence: 8 givenname: J surname: Szlachetko fullname: Szlachetko, J – sequence: 9 givenname: M. A surname: Soldatov fullname: Soldatov, M. A – sequence: 10 givenname: A. V surname: Soldatov fullname: Soldatov, A. V – sequence: 11 givenname: J. A surname: van Bokhoven fullname: van Bokhoven, J. A email: jeroen.vanbokhoven@chem.ethz.ch |
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Snippet | The structure of Ce3+, which is responsible for the low-temperature oxygen storage capacity of ceria, was determined by high-energy-resolution fluorescence... |
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Title | Electronic and Geometric Structure of Ce3+ Forming Under Reducing Conditions in Shaped Ceria Nanoparticles Promoted by Platinum |
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