Advanced Materials Interfaces | 2019

Multiple Reaction Paths for CO Oxidation on a 2D SnOx Nano‐Oxide on the Pt(110) Surface: Intrinsic Reactivity and Spillover

 
 
 
 
 
 

Abstract


Surface: Intrinsic Reactivity and Spillover DTU Orbit (25/02/2019) Multiple Reaction Paths for CO Oxidation on a 2D SnOx Nano-Oxide on the Pt(110) Surface: Intrinsic Reactivity and Spillover An interface stabilized SnOx/Pt(110) nano-oxide characterized by a c(2 × 4) surface reconstruction is prepared and characterized by low-energy electron diffraction (LEED), synchrotron radiation photoemission spectroscopy (SRPES), and scanning tunneling microscopy (STM). Based on the experimental data, atomic models for the nano-oxide are proposed and then validated by comparing the experimental results with the outcome of first-principle calculations. The reactivity of the nano-oxide toward CO is investigated, obtaining that the c(2 × 4) reconstruction efficiently oxidizes CO to CO2. The SnOx nano-oxide on the Pt(110) surface can act as a reservoir for oxygen that can diffuse on the adjacent Pt areas where it oxidizes CO. This spillover effect endows the SnOx/Pt(110) system with enhanced tolerance to CO poisoning. General information State: Accepted/In press Organisations: Department of Physics, University of Padova, Paul Scherrer Institute, University of Copenhagen, Charles University Contributors: Zheng, J., Busch, M., Artiglia, L., Skála, T., Rossmeisl, J., Agnoli, S. Number of pages: 9 Publication date: 2019 Peer-reviewed: Yes

Volume 6
Pages 1801874
DOI 10.1002/ADMI.201801874
Language English
Journal Advanced Materials Interfaces

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