The selective blocking of potentially catalytically active sites on surface-supported iron oxide catalysts

The extensive research on ultrathin ferrous oxide (FeO) islands and films over the last few decades has significantly contributed to the understanding of their structural and catalytic properties. In this regard, the local chemical properties of FeO edges, such as their metal affinity, play a critical role in determining and tuning the catalytic reactivity of FeO, which however remains largely unexplored. In this work, we use scanning tunneling microscopy (STM) to study the interaction of Pd and Pt with FeO grown on Au(111). Different Fe affinities for Pd and Pt are demonstrated by the preferential growth of Pd on the Fe-terminated edge and Pt on the O-terminated edge of FeO nanoislands, resulting in selectively blocked FeO edges. In addition to revealing the different metal affinities of FeO edges, our results provide new insights into the edge reactivity of FeO/Au(111) and suggest an approach for controlling the selectivity of FeO catalysts.

Automated summary

Extensive research on ultrathin ferrous oxide (FeO) islands and films has significantly contributed to understanding their structural and catalytic properties. In this study, scanning tunneling microscopy (STM) was used to investigate the interaction of Pd and Pt with FeO grown on Au(111). The results demonstrate different metal affinities of FeO edges, with Pd preferentially growing on the Fe-terminated edge and Pt preferentially growing on the O-terminated edge, resulting in selectively blocked FeO edges. This study provides new insights into the edge reactivity of FeO/Au(111) and suggests a potential approach for controlling the selectivity of FeO catalysts.