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

Abstract

AbstractAn 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.