Ab initio prediction of the equilibrium shape of supported Ag nanoparticles on [alpha]-Al2O3(0001)

Display Omitted * Prediction of three-dimensional Ag growth on stable alumina terminations. * Stability analysis of five different models of terminated alumina surfaces. * Characterization of equilibrium surfaces under EO reaction conditions. * Identification of contact angle as signature of the lev...

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Bibliographic Details
Published in:Journal of catalysis 2015-01, Vol.321, p.1
Main Authors: García-Mota, Mónica, Rieger, Michael, Reuter, Karsten
Format: Article
Language:English
Subjects:
Catalysis
Crystals
Nanoparticles
Silver
Online Access:Get full text
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Summary:Display Omitted * Prediction of three-dimensional Ag growth on stable alumina terminations. * Stability analysis of five different models of terminated alumina surfaces. * Characterization of equilibrium surfaces under EO reaction conditions. * Identification of contact angle as signature of the level of surface hydroxylation. * Establishment of strategy for the stabilization of the highly selective Ag(100). We combine first-principles atomistic thermodynamics with a Wulff-Kaichew construction to determine the equilibrium shape of Ag particles supported on [alpha]-Al2O3(0001) under gas-phase conditions representative for ethylene epoxidation. The formation of three-dimensional truncated octahedra is predicted for both the Al-terminated (AlO3Al-R) and the fully hydroxylated O-terminated (H3O3Al-R) alumina surface, albeit with largely different contact angles. Overall, this is fully consistent with the common description of hemispherical Ag microcrystals on this support, but at variance with the cubic Ag nanoparticles reported recently by Christopher and Linic (2008). This result suggests the latter particles to be stabilized kinetically. We establish a framework from which strategies to thermodynamically stabilize cubic particles can be explored. The Wulff-Kaichew construction is proposed to provide a straightforward criterion that may be used as a suitable descriptor in the computational screening of surface additives that would stabilize the arguably highly selective Ag(100) facets.
ISSN:0021-9517
1090-2694
DOI:10.1016/j.jcat.2014.10.009