Size Dependence of the adsorption energy of CO on metal nanoparticles: A DFT search for the minimum value

Ilya V. Yudanov; Alexander Genest; Swetlana Schauermann; Hans Joachim Freund; Notker Rösch

doi:10.1021/nl300515z

Size Dependence of the adsorption energy of CO on metal nanoparticles: A DFT search for the minimum value

Ilya V. Yudanov, Alexander Genest, Swetlana Schauermann, Hans Joachim Freund, Notker Rösch

Associate Professorship of Theoretical Chemistry (2008 — 2024)

Research output: Contribution to journal › Article › peer-review

166 Scopus citations

Abstract

With a density functional theory method, we studied computationally the size dependence of adsorption properties of metal nanoparticles for CO as a probe on Pd _n clusters with n = 13-116 atoms. For large particles, the values slowly decrease with cluster size from the asymptotic value for an (ideal) infinite surface. For clusters of 13-25 atoms, starting well above the asymptotic value, the adsorption energies drop quite steeply with increasing cluster size. These opposite trends meet in an intermediate size range, for clusters of 30-50 atoms, yielding the lowest adsorption energies. These computational results help to resolve a controversy on the size-dependent behavior of adsorption energies of metal nanoparticles.

Original language	English
Pages (from-to)	2134-2139
Number of pages	6
Journal	Nano Letters
Volume	12
Issue number	4
DOIs	https://doi.org/10.1021/nl300515z
State	Published - 11 Apr 2012

Keywords

Nanocatalysts
density functional calculations
nanoparticles
palladium

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10.1021/nl300515z

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abstract = "With a density functional theory method, we studied computationally the size dependence of adsorption properties of metal nanoparticles for CO as a probe on Pd n clusters with n = 13-116 atoms. For large particles, the values slowly decrease with cluster size from the asymptotic value for an (ideal) infinite surface. For clusters of 13-25 atoms, starting well above the asymptotic value, the adsorption energies drop quite steeply with increasing cluster size. These opposite trends meet in an intermediate size range, for clusters of 30-50 atoms, yielding the lowest adsorption energies. These computational results help to resolve a controversy on the size-dependent behavior of adsorption energies of metal nanoparticles.",

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AU - Yudanov, Ilya V.

AU - Genest, Alexander

AU - Schauermann, Swetlana

AU - Freund, Hans Joachim

AU - Rösch, Notker

PY - 2012/4/11

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N2 - With a density functional theory method, we studied computationally the size dependence of adsorption properties of metal nanoparticles for CO as a probe on Pd n clusters with n = 13-116 atoms. For large particles, the values slowly decrease with cluster size from the asymptotic value for an (ideal) infinite surface. For clusters of 13-25 atoms, starting well above the asymptotic value, the adsorption energies drop quite steeply with increasing cluster size. These opposite trends meet in an intermediate size range, for clusters of 30-50 atoms, yielding the lowest adsorption energies. These computational results help to resolve a controversy on the size-dependent behavior of adsorption energies of metal nanoparticles.

AB - With a density functional theory method, we studied computationally the size dependence of adsorption properties of metal nanoparticles for CO as a probe on Pd n clusters with n = 13-116 atoms. For large particles, the values slowly decrease with cluster size from the asymptotic value for an (ideal) infinite surface. For clusters of 13-25 atoms, starting well above the asymptotic value, the adsorption energies drop quite steeply with increasing cluster size. These opposite trends meet in an intermediate size range, for clusters of 30-50 atoms, yielding the lowest adsorption energies. These computational results help to resolve a controversy on the size-dependent behavior of adsorption energies of metal nanoparticles.

KW - Nanocatalysts

KW - density functional calculations

KW - nanoparticles

KW - palladium

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Size Dependence of the adsorption energy of CO on metal nanoparticles: A DFT search for the minimum value

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Keywords

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