Stabilizing High Metal Loadings of Thermally Stable Platinum Single Atoms on an Industrial Catalyst Support

Stabilizing High Metal Loadings of Thermally Stable Platinum Single Atoms on an Industrial Catalyst Support

Single-atom catalysts have attracted attention because of improved atom efficiency, higher reactivity, and better selectivity. A major challenge is to achieve high surface concentrations while preventing these atoms from agglomeration at elevated temperatures. Here we investigate the formation of Pt...

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Veröffentlicht in:ACS catalysis 2019-05, Vol.9 (5), p.3978-3990
Hauptverfasser: Kunwar, Deepak, Zhou, Shulan, DeLaRiva, Andrew, Peterson, Eric J, Xiong, Haifeng, Pereira-Hernández, Xavier Isidro, Purdy, Stephen C, ter Veen, Rik, Brongersma, Hidde H, Miller, Jeffrey T, Hashiguchi, Hiroki, Kovarik, Libor, Lin, Sen, Guo, Hua, Wang, Yong, Datye, Abhaya K
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container_end_page 3990
container_issue 5
container_start_page 3978
container_title ACS catalysis
container_volume 9
creator Kunwar, Deepak
Zhou, Shulan
DeLaRiva, Andrew
Peterson, Eric J
Xiong, Haifeng
Pereira-Hernández, Xavier Isidro
Purdy, Stephen C
ter Veen, Rik
Brongersma, Hidde H
Miller, Jeffrey T
Hashiguchi, Hiroki
Kovarik, Libor
Lin, Sen
Guo, Hua
Wang, Yong
Datye, Abhaya K
description Single-atom catalysts have attracted attention because of improved atom efficiency, higher reactivity, and better selectivity. A major challenge is to achieve high surface concentrations while preventing these atoms from agglomeration at elevated temperatures. Here we investigate the formation of Pt single atoms on an industrial catalyst support. Using a combination of surface sensitive techniques such as XPS and LEIS, X-ray absorption spectroscopy, electron microscopy, as well as density functional theory, we demonstrate that cerium oxide can support Pt single atoms at high metal loading (3 wt % Pt), without forming any clusters or 3D aggregates when heated in air at 800 °C. The mechanism of trapping involves a reaction of the mobile PtO2 with under-coordinated cerium cations present at CeO2(111) step edges, allowing Pt to achieve a stable square planar configuration. The strong interaction of mobile single-atom species with the support, present during catalyst sintering and regeneration, helps explain the sinter resistance of ceria-supported metal catalysts.
doi_str_mv 10.1021/acscatal.8b04885
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title Stabilizing High Metal Loadings of Thermally Stable Platinum Single Atoms on an Industrial Catalyst Support
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