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Journal article

High sintering resistance of size-selected platinum cluster catalysts by suppressed ostwald ripening

By Wettergren, Kristina1; Schweinberger, Florian F.2; Deiana, Davide3; Ridge, Claron J.2; Crampton, Andrew S.2; Rötzer, Marian D.2; Hansen, Thomas Willum3; Zhdanov, Vladimir P.1; Heiz, Ueli2; Langhammer, Christoph1

From

Chalmers University of Technology1

Technical University of Munich2

Center for Electron Nanoscopy, Technical University of Denmark3

Employing rationally designed model systems with precise atom-by-atom particle size control, we demonstrate by means of combining noninvasive in situ indirect nanoplasmonic sensing and ex situ scanning transmission electron microscopy that monomodal size-selected platinum cluster catalysts on different supports exhibit remarkable intrinsic sintering resistance even under reaction conditions.

The observed stability is related to suppression of Ostwald ripening by elimination of its main driving force via size-selection. This study thus constitutes a general blueprint for the rational design of sintering resistant catalyst systems and for efficient experimental strategies to determine sintering mechanisms.

Moreover, this is the first systematic experimental investigation of sintering processes in nanoparticle systems with an initially perfectly monomodal size distribution under ambient conditions.

Language: English
Year: 2014
Pages: 5803-5809
ISSN: 15306992 and 15306984
Types: Journal article
DOI: 10.1021/nl502686u
ORCIDs: Hansen, Thomas Willum
Keywords

Indirect nanoplasmonic sensing Ostwald ripening Platinum Sintering resistance Size-selected clusters

Other keywords

indirect nanoplasmonic sensing platinum sintering resistance

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