Illuminating surface atoms in nanoclusters by differential X-ray absorption spectroscopy

Charles S. Spanjers; Thomas P. Senftle; Adri C.T. van Duin; Michael J. Janik; Anatoly I. Frenkel; Robert M. Rioux

doi:10.1039/c4cp02146k

Illuminating surface atoms in nanoclusters by differential X-ray absorption spectroscopy

Charles S. Spanjers, Thomas P. Senftle, Adri C.T. van Duin, Michael J. Janik, Anatoly I. Frenkel, Robert M. Rioux

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

10 Scopus citations

Abstract

We use differential extended X-ray absorption fine structure (Δ-EXAFS) to monitor the Ar-induced surface restructuring of silica-supported Pd nanoclusters (1 nm diameter) at 77 K. Δ-EXAFS analysis shows 9 ± 2 nearest-neighbor Pd-Pd bonds expand by 0.104 ± 0.005 Å as a result of Ar adsorption. Atomistic molecular dynamics simulations provide evidence for a model in which Ar drives restructuring of under-coordinated Pd atoms, leading to an increased Pd-Pd bond length of surface Pd atoms with no change in overall nearest-neighbor Pd-Pd coordination number. Based on observations from the atomistic simulations, it is likely that under-coordinated atoms are trapped in metastable states at 77 K and Ar provides the kinetic energy needed to overcome the barrier for surface restructuring. Together, experiment and theory highlight the ability of Δ-EXAFS to probe surface atoms of Pd nanoclusters.

Original language	English (US)
Pages (from-to)	26528-26538
Number of pages	11
Journal	Physical Chemistry Chemical Physics
Volume	16
Issue number	48
DOIs	https://doi.org/10.1039/c4cp02146k
State	Published - Nov 19 2014

All Science Journal Classification (ASJC) codes

General Physics and Astronomy
Physical and Theoretical Chemistry

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10.1039/c4cp02146k

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title = "Illuminating surface atoms in nanoclusters by differential X-ray absorption spectroscopy",

abstract = "We use differential extended X-ray absorption fine structure (Δ-EXAFS) to monitor the Ar-induced surface restructuring of silica-supported Pd nanoclusters (1 nm diameter) at 77 K. Δ-EXAFS analysis shows 9 ± 2 nearest-neighbor Pd-Pd bonds expand by 0.104 ± 0.005 {\AA} as a result of Ar adsorption. Atomistic molecular dynamics simulations provide evidence for a model in which Ar drives restructuring of under-coordinated Pd atoms, leading to an increased Pd-Pd bond length of surface Pd atoms with no change in overall nearest-neighbor Pd-Pd coordination number. Based on observations from the atomistic simulations, it is likely that under-coordinated atoms are trapped in metastable states at 77 K and Ar provides the kinetic energy needed to overcome the barrier for surface restructuring. Together, experiment and theory highlight the ability of Δ-EXAFS to probe surface atoms of Pd nanoclusters.",

author = "Spanjers, {Charles S.} and Senftle, {Thomas P.} and {van Duin}, {Adri C.T.} and Janik, {Michael J.} and Frenkel, {Anatoly I.} and Rioux, {Robert M.}",

year = "2014",

month = nov,

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doi = "10.1039/c4cp02146k",

language = "English (US)",

volume = "16",

pages = "26528--26538",

journal = "Physical Chemistry Chemical Physics",

issn = "1463-9076",

publisher = "Royal Society of Chemistry",

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TY - JOUR

T1 - Illuminating surface atoms in nanoclusters by differential X-ray absorption spectroscopy

AU - Spanjers, Charles S.

AU - Senftle, Thomas P.

AU - van Duin, Adri C.T.

AU - Janik, Michael J.

AU - Frenkel, Anatoly I.

AU - Rioux, Robert M.

PY - 2014/11/19

Y1 - 2014/11/19

N2 - We use differential extended X-ray absorption fine structure (Δ-EXAFS) to monitor the Ar-induced surface restructuring of silica-supported Pd nanoclusters (1 nm diameter) at 77 K. Δ-EXAFS analysis shows 9 ± 2 nearest-neighbor Pd-Pd bonds expand by 0.104 ± 0.005 Å as a result of Ar adsorption. Atomistic molecular dynamics simulations provide evidence for a model in which Ar drives restructuring of under-coordinated Pd atoms, leading to an increased Pd-Pd bond length of surface Pd atoms with no change in overall nearest-neighbor Pd-Pd coordination number. Based on observations from the atomistic simulations, it is likely that under-coordinated atoms are trapped in metastable states at 77 K and Ar provides the kinetic energy needed to overcome the barrier for surface restructuring. Together, experiment and theory highlight the ability of Δ-EXAFS to probe surface atoms of Pd nanoclusters.

AB - We use differential extended X-ray absorption fine structure (Δ-EXAFS) to monitor the Ar-induced surface restructuring of silica-supported Pd nanoclusters (1 nm diameter) at 77 K. Δ-EXAFS analysis shows 9 ± 2 nearest-neighbor Pd-Pd bonds expand by 0.104 ± 0.005 Å as a result of Ar adsorption. Atomistic molecular dynamics simulations provide evidence for a model in which Ar drives restructuring of under-coordinated Pd atoms, leading to an increased Pd-Pd bond length of surface Pd atoms with no change in overall nearest-neighbor Pd-Pd coordination number. Based on observations from the atomistic simulations, it is likely that under-coordinated atoms are trapped in metastable states at 77 K and Ar provides the kinetic energy needed to overcome the barrier for surface restructuring. Together, experiment and theory highlight the ability of Δ-EXAFS to probe surface atoms of Pd nanoclusters.

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DO - 10.1039/c4cp02146k

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EP - 26538

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 48

ER -

Illuminating surface atoms in nanoclusters by differential X-ray absorption spectroscopy

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