Contrasting the EXAFS obtained under air and H2 environments to reveal details of the surface structure of Pt-Sn nanoparticles
Contrasting the EXAFS obtained under air and H2 environments to reveal details of the surface structure of Pt-Sn nanoparticles
Understanding the surface structure of bimetallic nanoparticles is crucial for heterogeneous catalysis. Although surface contraction has been established in monometallic systems, less is known for bimetallic systems, especially of nanoparticles. In this work, the bond length contraction on the surface of bimetallic nanoparticles is revealed by XAS in H2 at room temperature on dealloyed Pt-Sn nanoparticles, where most Sn atoms were oxidized and segregated to the surface when measured in air. The average Sn-Pt bond length is found to be ~0.09 Å shorter than observed in the bulk. To ascertain the effect of the Sn location on the decrease of the average bond length, Pt-Sn samples with lower surface-to-bulk Sn ratios than the dealloyed Pt-Sn were studied. The structural information specifically from the surface was extracted from the averaged XAS results using an improved fitting model combining the data measured in H2 and in air. Two samples prepared so as to ensure the absence of Sn in the bulk were also studied in the same fashion. The bond length of surface Sn-Pt and the corresponding coordination number obtained in this study show a nearly linear correlation, the origin of which is discussed and attributed to the poor overlap between the Sn 5p orbitals and the available orbitals of the Pt surface atoms.
11738 - 11745
Huang, Haoliang
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Nassr, Abu Bakr Ahmed Amine
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Celorrio, Veronica
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Gianolio, Diego
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Hardacre, Christopher
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Brett, Dan J. L.
652e18b5-dad8-4dc4-bed4-9810052ad27b
Russell, Andrea E.
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Huang, Haoliang
132a8eda-b800-4fa7-9583-6b4306f30247
Nassr, Abu Bakr Ahmed Amine
e7459341-3f6a-4bf0-a54e-5eda1c521649
Celorrio, Veronica
5ebb7fb5-a74c-4872-9795-5830dc915d0b
Gianolio, Diego
5b316f7d-f314-4337-954e-8c0ce8e38223
Hardacre, Christopher
0715f59a-c82e-4844-a9f8-6a06fb36320f
Brett, Dan J. L.
652e18b5-dad8-4dc4-bed4-9810052ad27b
Russell, Andrea E.
b6b7c748-efc1-4d5d-8a7a-8e4b69396169
Huang, Haoliang, Nassr, Abu Bakr Ahmed Amine, Celorrio, Veronica, Gianolio, Diego, Hardacre, Christopher, Brett, Dan J. L. and Russell, Andrea E.
(2021)
Contrasting the EXAFS obtained under air and H2 environments to reveal details of the surface structure of Pt-Sn nanoparticles.
Physical Chemistry Chemical Physics, 2021 (23), .
Abstract
Understanding the surface structure of bimetallic nanoparticles is crucial for heterogeneous catalysis. Although surface contraction has been established in monometallic systems, less is known for bimetallic systems, especially of nanoparticles. In this work, the bond length contraction on the surface of bimetallic nanoparticles is revealed by XAS in H2 at room temperature on dealloyed Pt-Sn nanoparticles, where most Sn atoms were oxidized and segregated to the surface when measured in air. The average Sn-Pt bond length is found to be ~0.09 Å shorter than observed in the bulk. To ascertain the effect of the Sn location on the decrease of the average bond length, Pt-Sn samples with lower surface-to-bulk Sn ratios than the dealloyed Pt-Sn were studied. The structural information specifically from the surface was extracted from the averaged XAS results using an improved fitting model combining the data measured in H2 and in air. Two samples prepared so as to ensure the absence of Sn in the bulk were also studied in the same fashion. The bond length of surface Sn-Pt and the corresponding coordination number obtained in this study show a nearly linear correlation, the origin of which is discussed and attributed to the poor overlap between the Sn 5p orbitals and the available orbitals of the Pt surface atoms.
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Accepted/In Press date: 29 March 2021
e-pub ahead of print date: 11 May 2021
Identifiers
Local EPrints ID: 449232
URI: http://eprints.soton.ac.uk/id/eprint/449232
ISSN: 1463-9076
PURE UUID: 658a0edd-6302-47cf-8205-0b32ceaf2c96
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Date deposited: 20 May 2021 16:31
Last modified: 17 Mar 2024 02:46
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Contributors
Author:
Haoliang Huang
Author:
Abu Bakr Ahmed Amine Nassr
Author:
Veronica Celorrio
Author:
Diego Gianolio
Author:
Christopher Hardacre
Author:
Dan J. L. Brett
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