Strong Metal–Support Interactions between Pt Single Atoms and TiO2

Bing Han; Yalin Guo; Yike Huang; Wei Xi; Jie Xu; Jun Luo; Haifeng Qi; Yujing Ren; Xiaoyan Liu; Botao Qiao; Tao Zhang

doi:10.1002/anie.202003208

Strong Metal–Support Interactions between Pt Single Atoms and TiO₂

Bing Han, Yalin Guo, Yike Huang, Wei Xi, Jie Xu, Jun Luo, Haifeng Qi, Yujing Ren, Xiaoyan Liu, Botao Qiao, Tao Zhang

Research output: Contribution to journal › Article › peer-review

420 Scopus citations

Abstract

Strong metal–support interaction (SMSI) has gained great attention in the field of heterogeneous catalysis. However, whether single-atom catalysts can exhibit SMSI remains unknown. Here, we demonstrate that SMSI can occur on TiO₂-supported Pt single atoms but at a much higher reduction temperature than that for Pt nanoparticles (NPs). Pt single atoms involved in SMSI are not covered by the TiO₂ support nor do they sink into its subsurface. The suppression of CO adsorption on Pt single atoms stems from coordination saturation (18-electron rule) rather than the physical coverage of Pt atoms by the support. Based on the new finding it is revealed that single atoms are the true active sites in the hydrogenation of 3-nitrostyrene, while Pt NPs barely contribute to the activity since the NP sites are selectively encapsulated. The findings in this work provide a new approach to study the active sites by tuning SMSI.

Original language	English
Pages (from-to)	11824-11829
Number of pages	6
Journal	Angewandte Chemie - International Edition
Volume	59
Issue number	29
DOIs	https://doi.org/10.1002/anie.202003208
State	Published - 13 Jul 2020
Externally published	Yes

Keywords

chemoselective hydrogenation
platinum
single-atom catalysts
strong metal–support interactions
titanium dioxide

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10.1002/anie.202003208

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title = "Strong Metal–Support Interactions between Pt Single Atoms and TiO2",

abstract = "Strong metal–support interaction (SMSI) has gained great attention in the field of heterogeneous catalysis. However, whether single-atom catalysts can exhibit SMSI remains unknown. Here, we demonstrate that SMSI can occur on TiO2-supported Pt single atoms but at a much higher reduction temperature than that for Pt nanoparticles (NPs). Pt single atoms involved in SMSI are not covered by the TiO2 support nor do they sink into its subsurface. The suppression of CO adsorption on Pt single atoms stems from coordination saturation (18-electron rule) rather than the physical coverage of Pt atoms by the support. Based on the new finding it is revealed that single atoms are the true active sites in the hydrogenation of 3-nitrostyrene, while Pt NPs barely contribute to the activity since the NP sites are selectively encapsulated. The findings in this work provide a new approach to study the active sites by tuning SMSI.",

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doi = "10.1002/anie.202003208",

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AU - Han, Bing

AU - Guo, Yalin

AU - Huang, Yike

AU - Xi, Wei

AU - Xu, Jie

AU - Luo, Jun

AU - Qi, Haifeng

AU - Ren, Yujing

AU - Liu, Xiaoyan

AU - Qiao, Botao

AU - Zhang, Tao

PY - 2020/7/13

Y1 - 2020/7/13

N2 - Strong metal–support interaction (SMSI) has gained great attention in the field of heterogeneous catalysis. However, whether single-atom catalysts can exhibit SMSI remains unknown. Here, we demonstrate that SMSI can occur on TiO2-supported Pt single atoms but at a much higher reduction temperature than that for Pt nanoparticles (NPs). Pt single atoms involved in SMSI are not covered by the TiO2 support nor do they sink into its subsurface. The suppression of CO adsorption on Pt single atoms stems from coordination saturation (18-electron rule) rather than the physical coverage of Pt atoms by the support. Based on the new finding it is revealed that single atoms are the true active sites in the hydrogenation of 3-nitrostyrene, while Pt NPs barely contribute to the activity since the NP sites are selectively encapsulated. The findings in this work provide a new approach to study the active sites by tuning SMSI.

AB - Strong metal–support interaction (SMSI) has gained great attention in the field of heterogeneous catalysis. However, whether single-atom catalysts can exhibit SMSI remains unknown. Here, we demonstrate that SMSI can occur on TiO2-supported Pt single atoms but at a much higher reduction temperature than that for Pt nanoparticles (NPs). Pt single atoms involved in SMSI are not covered by the TiO2 support nor do they sink into its subsurface. The suppression of CO adsorption on Pt single atoms stems from coordination saturation (18-electron rule) rather than the physical coverage of Pt atoms by the support. Based on the new finding it is revealed that single atoms are the true active sites in the hydrogenation of 3-nitrostyrene, while Pt NPs barely contribute to the activity since the NP sites are selectively encapsulated. The findings in this work provide a new approach to study the active sites by tuning SMSI.

KW - chemoselective hydrogenation

KW - platinum

KW - single-atom catalysts

KW - strong metal–support interactions

KW - titanium dioxide

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JO - Angewandte Chemie - International Edition

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IS - 29

ER -

Strong Metal–Support Interactions between Pt Single Atoms and TiO₂

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