TY - GEN A1 - Wallander, Harald J. A1 - Gajdek, Dorotea A1 - Albertin, Stefano A1 - Harlow, Gary A1 - Braud, Nicolas A1 - Buß, Lars A1 - Krisponeit, Jon-Olaf A1 - Flege, Jan Ingo A1 - Falta, Jens A1 - Lundgren, Edvin A1 - Merte, Lindsay R. T1 - Dynamic Behavior of Tin at Platinum Surfaces during Catalytic CO Oxidation T2 - ACS Catalysis N2 - Platinum–tin surfaces are active for CO oxidation, but their activity and the effects of tin oxide phases that form under reaction conditions are poorly understood. We have studied surface alloys of tin prepared on platinum single crystals during catalytic CO oxidation using near-ambient-pressure X-ray photoemission spectroscopy. On the flat terraces of Sn/Pt(111), a wetting layer of Sn(II) surface oxide forms, while on the stepped Sn/Pt(223) surface, 3D clusters of Sn(IV) oxide are formed. Oxidation of tin by O2 competes with the reduction of the oxides by CO under reaction conditions. Oxides that do not completely cover the surface can be reduced to metallic tin, while a fully covering layer of Sn(II) oxide cannot, showing the importance of oxide edge sites for the reduction process. The samples where 2D oxide layers are formed show a higher CO oxidation activity than for pure platinum at low temperatures, while the Sn(IV) oxide clusters on the stepped surfaces do not affect the measured CO oxidation rate. We therefore identify 2D Sn(II) oxide as an active phase for CO oxidation. While oxide island edges appear to make only minor contributions to conversion under these conditions, reactions at these sites play a major role in determining the phases present and their transformations. KW - operando KW - CO oxidation KW - platinum KW - tin KW - oxides KW - alloys KW - stepped surfaces Y1 - 2023 U6 - https://doi.org/10.1021/acscatal.3c04657 SN - 2155-5435 VL - 13 IS - 24 SP - 16158 EP - 16167 ER -