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Surface Density Dependent Catalytic Activity of Single Palladium Atoms Supported on Ceria*.

Yongseon KimGreg CollingeMal-Soon LeeKonstantin KhivantsevSung June ChoVassiliki-Alexandra GlezakouRoger RousseauJános SzanyiJa Hun Kwak
Published in: Angewandte Chemie (International ed. in English) (2021)
The analogy between single-atom catalysts (SACs) and molecular catalysts predicts that the specific catalytic activity of these systems is constant. We provide evidence that this prediction is not necessarily true. As a case in point, we show that the specific activity over ceria-supported single Pd atoms linearly increases with metal atom density, originating from the cumulative enhancement of CeO2 reducibility. The long-range electrostatic footprints (≈1.5 nm) around each Pd site overlap with each other as surface Pd density increases, resulting in an observed deviation from constant specific activity. These cooperative effects exhaust previously active O atoms above a certain Pd density, leading to their permanent removal and a consequent drop in reaction rate. The findings of our combined experimental and computational study show that the specific catalytic activity of reducible oxide-supported single-atom catalysts can be tuned by varying the surface density of single metal atoms.
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