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CO oxidation activity of non-reducible oxide-supported mass-selected few-atom Pt single-clusters

Atsushi Beniya, Shougo Higashi, Nobuko Ohba, Ryosuke Jinnouchi, Hirohito Hirata, Yoshihide Watanabe

2020Nature Communications135 citationsDOIOpen Access PDF

Abstract

Abstract Platinum nanocatalysts play critical roles in CO oxidation, an important catalytic conversion process. As the catalyst size decreases, the influence of the support material on catalysis increases which can alter the chemical states of Pt atoms in contact with the support. Herein, we demonstrate that under-coordinated Pt atoms at the edges of the first cluster layer are rendered cationic by direct contact with the Al 2 O 3 support, which affects the overall CO oxidation activity. The ratio of neutral to cationic Pt atoms in the Pt nanocluster is strongly correlated with the CO oxidation activity, but no correlation exists with the total surface area of surface-exposed Pt atoms. The low oxygen affinity of cationic Pt atoms explains this counterintuitive result. Using this relationship and our modified bond-additivity method, which only requires the catalyst–support bond energy as input, we successfully predict the CO oxidation activities of various sized Pt clusters on TiO 2 .

Topics & Concepts

Cationic polymerizationNanomaterial-based catalystCatalysisCluster (spacecraft)Atom (system on chip)PlatinumOxideCounterintuitiveChemistryOxidation processMaterials sciencePhotochemistryCrystallographyChemical engineeringOrganic chemistryPhilosophyComputer scienceEmbedded systemProgramming languageEngineeringEpistemologyCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionCatalysis and Oxidation Reactions