Unveiling Inequality of Atoms in Ultrasmall Pt Clusters: Oxygen Adsorption Limited to the Uppermost Atomic Layer

Federico Loi; Luca Bignardi; Deborah Perco; Andrea Berti; Paolo Lacovig; Silvano Lizzit; Aras Kartouzian; Ulrich Heiz; Dario Alfè; Alessandro Baraldi

doi:10.1002/sstr.202400250

Small Structures (Nov 2024)

Unveiling Inequality of Atoms in Ultrasmall Pt Clusters: Oxygen Adsorption Limited to the Uppermost Atomic Layer

Federico Loi,
Luca Bignardi,
Deborah Perco,
Andrea Berti,
Paolo Lacovig,
Silvano Lizzit,
Aras Kartouzian,
Ulrich Heiz,
Dario Alfè,
Alessandro Baraldi

Affiliations

Federico Loi: Department of Physics University of Trieste via Valerio 2 34127 Trieste Italy
Luca Bignardi: Department of Physics University of Trieste via Valerio 2 34127 Trieste Italy
Deborah Perco: Department of Physics University of Trieste via Valerio 2 34127 Trieste Italy
Andrea Berti: Department of Physics University of Trieste via Valerio 2 34127 Trieste Italy
Paolo Lacovig: Elettra Sincrotrone Trieste AREA Science Park Basovizza 34149 Trieste Italy
Silvano Lizzit: Elettra Sincrotrone Trieste AREA Science Park Basovizza 34149 Trieste Italy
Aras Kartouzian: Chemistry Department & Catalysis Research Center Technical University of Munich Lichtenbergstr. 4 D‐85748 Garching Germany
Ulrich Heiz: Chemistry Department & Catalysis Research Center Technical University of Munich Lichtenbergstr. 4 D‐85748 Garching Germany
Dario Alfè: Department of Earth Sciences and London Centre for Nanotechnology University College London Gower Street London WC1E 6BT UK
Alessandro Baraldi: Department of Physics University of Trieste via Valerio 2 34127 Trieste Italy

DOI: https://doi.org/10.1002/sstr.202400250
Journal volume & issue: Vol. 5, no. 11
pp. n/a – n/a

Abstract

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The concept of preferential atomic and molecular adsorption site is of primary relevance in heterogeneous catalysis. In the case of ultrasmall size‐selected clusters, distinguishing the role played by each atom in a reaction is extremely challenging due to their reduced size and peculiar structures. Herein, it is revealed how the inequivalent atoms composing graphene‐supported Pt12 and Pt13 clusters behave differently in the photoinduced dissociation of O2, with only those in the uppermost layer of the clusters being involved in the reaction. In this process, the epitaxial graphene support plays a fundamental active role: its corrugation and pinning induced by the presence of the clusters are crucial for defining the preferential adsorption site on the Pt atomic agglomerates, facilitating the lateral diffusion of physisorbed oxygen at a distance that induces its selective adsorption in the topmost layer of the clusters, and inducing an inhomogeneous charge distribution within the clusters which directly affects the O2 adsorption. The inhomogeneous oxidation of the clusters is resolved by means of synchrotron‐based X‐ray photoelectron spectroscopy and supported by ab initio density functional theory calculations. The possibility to identify the active sites on Pt clusters induced by cluster–support interactions has the potential to enhance the experimentally supported design of nanocatalysts.

Published in Small Structures

ISSN: 2688-4062 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Science: Chemistry
Website: https://onlinelibrary.wiley.com/journal/26884062

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