Metal–Support Interaction in Pt/TiO2: Formation of Surface Pt–Ti Alloy
Pt/TiO2 catalysts were fabricated by dispersing uniform Pt colloids of 3.0 nm on TiO2 nanosheets that preferentially exposed the {001} facets; the chemical nature of the metal–support interaction was examined by hydrogen treatment at 473–773 K. Upon calcination of the freshly assembled sample at 773...
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| Published in | Journal of physical chemistry. C Vol. 125; no. 19; pp. 10386 - 10396 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
20.05.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1932-7447 1932-7455 1932-7455 |
| DOI | 10.1021/acs.jpcc.1c02108 |
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| Abstract | Pt/TiO2 catalysts were fabricated by dispersing uniform Pt colloids of 3.0 nm on TiO2 nanosheets that preferentially exposed the {001} facets; the chemical nature of the metal–support interaction was examined by hydrogen treatment at 473–773 K. Upon calcination of the freshly assembled sample at 773 K in air, for removing the organic species, Pt particles retained a mean size of about 3.0 nm, but were partially split into tiny clusters and even single-atoms. The subsequent reduction with hydrogen at 473–773 K lowered the amounts of the chemically adsorbed H2 and CO, showing the prominent character of a strong metal–support interaction. However, detailed spectroscopic and microscopic characterizations on the structural evolution of the H2-reduced samples evidenced that surface Pt–Ti alloy, formed over the Pt particle, dominated the metal–support interaction. Driven by the small size of the Pt particle and the reactive {001} facets of TiO2, surface Pt–Ti alloy was readily formed at 673 K under H2, which heavily weakened the adsorption of the probe molecules. TiO x overlayers appeared on the surface of large Pt particles (10–12 nm) that were observed only occasionally in the samples. |
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| AbstractList | Pt/TiO2 catalysts were fabricated by dispersing uniform Pt colloids of 3.0 nm on TiO2 nanosheets that preferentially exposed the {001} facets; the chemical nature of the metal–support interaction was examined by hydrogen treatment at 473–773 K. Upon calcination of the freshly assembled sample at 773 K in air, for removing the organic species, Pt particles retained a mean size of about 3.0 nm, but were partially split into tiny clusters and even single-atoms. The subsequent reduction with hydrogen at 473–773 K lowered the amounts of the chemically adsorbed H2 and CO, showing the prominent character of a strong metal–support interaction. However, detailed spectroscopic and microscopic characterizations on the structural evolution of the H2-reduced samples evidenced that surface Pt–Ti alloy, formed over the Pt particle, dominated the metal–support interaction. Driven by the small size of the Pt particle and the reactive {001} facets of TiO2, surface Pt–Ti alloy was readily formed at 673 K under H2, which heavily weakened the adsorption of the probe molecules. TiO x overlayers appeared on the surface of large Pt particles (10–12 nm) that were observed only occasionally in the samples. Pt/TiO₂ catalysts were fabricated by dispersing uniform Pt colloids of 3.0 nm on TiO₂ nanosheets that preferentially exposed the {001} facets; the chemical nature of the metal–support interaction was examined by hydrogen treatment at 473–773 K. Upon calcination of the freshly assembled sample at 773 K in air, for removing the organic species, Pt particles retained a mean size of about 3.0 nm, but were partially split into tiny clusters and even single-atoms. The subsequent reduction with hydrogen at 473–773 K lowered the amounts of the chemically adsorbed H₂ and CO, showing the prominent character of a strong metal–support interaction. However, detailed spectroscopic and microscopic characterizations on the structural evolution of the H₂-reduced samples evidenced that surface Pt–Ti alloy, formed over the Pt particle, dominated the metal–support interaction. Driven by the small size of the Pt particle and the reactive {001} facets of TiO₂, surface Pt–Ti alloy was readily formed at 673 K under H₂, which heavily weakened the adsorption of the probe molecules. TiOₓ overlayers appeared on the surface of large Pt particles (10–12 nm) that were observed only occasionally in the samples. |
| Author | Zhou, Yan Zhao, Wenning Li, Yong Liu, Jiaxu Han, Shaobo Zhou, Di Zhang, Xixiong Li, Mingrun Shen, Wenjie |
| AuthorAffiliation | State Key Laboratory of Fine Chemicals & Department of Catalytic Chemistry and Engineering Dalian University of Technology State Key Laboratory of Catalysis University of Chinese Academy of Sciences |
| AuthorAffiliation_xml | – name: State Key Laboratory of Fine Chemicals & Department of Catalytic Chemistry and Engineering – name: Dalian University of Technology – name: University of Chinese Academy of Sciences – name: State Key Laboratory of Catalysis |
| Author_xml | – sequence: 1 givenname: Wenning surname: Zhao fullname: Zhao, Wenning organization: University of Chinese Academy of Sciences – sequence: 2 givenname: Di surname: Zhou fullname: Zhou, Di organization: University of Chinese Academy of Sciences – sequence: 3 givenname: Shaobo surname: Han fullname: Han, Shaobo organization: State Key Laboratory of Catalysis – sequence: 4 givenname: Yong orcidid: 0000-0003-4830-9210 surname: Li fullname: Li, Yong email: yongli@dicp.ac.cn organization: State Key Laboratory of Catalysis – sequence: 5 givenname: Jiaxu orcidid: 0000-0003-0815-3979 surname: Liu fullname: Liu, Jiaxu organization: Dalian University of Technology – sequence: 6 givenname: Yan orcidid: 0000-0002-9847-0806 surname: Zhou fullname: Zhou, Yan organization: State Key Laboratory of Catalysis – sequence: 7 givenname: Mingrun surname: Li fullname: Li, Mingrun organization: State Key Laboratory of Catalysis – sequence: 8 givenname: Xixiong surname: Zhang fullname: Zhang, Xixiong organization: Dalian University of Technology – sequence: 9 givenname: Wenjie orcidid: 0000-0002-3071-9556 surname: Shen fullname: Shen, Wenjie email: shen98@dicp.ac.cn organization: State Key Laboratory of Catalysis |
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| Snippet | Pt/TiO2 catalysts were fabricated by dispersing uniform Pt colloids of 3.0 nm on TiO2 nanosheets that preferentially exposed the {001} facets; the chemical... Pt/TiO₂ catalysts were fabricated by dispersing uniform Pt colloids of 3.0 nm on TiO₂ nanosheets that preferentially exposed the {001} facets; the chemical... |
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| SubjectTerms | adsorption air alloys C: Chemical and Catalytic Reactivity at Interfaces hydrogen nanosheets spectroscopy |
| Title | Metal–Support Interaction in Pt/TiO2: Formation of Surface Pt–Ti Alloy |
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