Transition from a Bloch-Wilson to a free-electron density of states in Zn n - clusters

Oleg Kostko; Gert Wrigge; Ori Cheshnovsky; Bernd V. Issendorff

doi:10.1063/1.2138689

Transition from a Bloch-Wilson to a free-electron density of states in Zn _n ^- clusters

Oleg Kostko^*, Gert Wrigge, Ori Cheshnovsky, Bernd V. Issendorff

^*Corresponding author for this work

School of Chemistry

University of Freiburg

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

12 Scopus citations

Abstract

We present photoelectron spectroscopy studies on Znn- in the size range of n=3-117. We show that zinc clusters exhibit a distinct transition in their electronic structure as a function of size. At small sizes (up to n=18) the clusters follow the Bloch-Wilson picture of the development of a metal from closed-shell atoms, exhibiting a gradual decrease of the gap between the fully occupied s band and the empty p band. For large sizes (n≳32) the band overlap allows the valence electrons to fully delocalize. This leads to an almost perfect free-electron density of states, as is demonstrated by discussing the spectra in the light of standard free-electron models and by comparison to the results obtained on sodium clusters.

Original language	English
Article number	221102
Journal	Journal of Chemical Physics
Volume	123
Issue number	22
DOIs	https://doi.org/10.1063/1.2138689
State	Published - 2005

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title = "Transition from a Bloch-Wilson to a free-electron density of states in Zn n - clusters",

abstract = "We present photoelectron spectroscopy studies on Znn- in the size range of n=3-117. We show that zinc clusters exhibit a distinct transition in their electronic structure as a function of size. At small sizes (up to n=18) the clusters follow the Bloch-Wilson picture of the development of a metal from closed-shell atoms, exhibiting a gradual decrease of the gap between the fully occupied s band and the empty p band. For large sizes (n≳32) the band overlap allows the valence electrons to fully delocalize. This leads to an almost perfect free-electron density of states, as is demonstrated by discussing the spectra in the light of standard free-electron models and by comparison to the results obtained on sodium clusters.",

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AU - Kostko, Oleg

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AU - Cheshnovsky, Ori

AU - Issendorff, Bernd V.

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N2 - We present photoelectron spectroscopy studies on Znn- in the size range of n=3-117. We show that zinc clusters exhibit a distinct transition in their electronic structure as a function of size. At small sizes (up to n=18) the clusters follow the Bloch-Wilson picture of the development of a metal from closed-shell atoms, exhibiting a gradual decrease of the gap between the fully occupied s band and the empty p band. For large sizes (n≳32) the band overlap allows the valence electrons to fully delocalize. This leads to an almost perfect free-electron density of states, as is demonstrated by discussing the spectra in the light of standard free-electron models and by comparison to the results obtained on sodium clusters.

AB - We present photoelectron spectroscopy studies on Znn- in the size range of n=3-117. We show that zinc clusters exhibit a distinct transition in their electronic structure as a function of size. At small sizes (up to n=18) the clusters follow the Bloch-Wilson picture of the development of a metal from closed-shell atoms, exhibiting a gradual decrease of the gap between the fully occupied s band and the empty p band. For large sizes (n≳32) the band overlap allows the valence electrons to fully delocalize. This leads to an almost perfect free-electron density of states, as is demonstrated by discussing the spectra in the light of standard free-electron models and by comparison to the results obtained on sodium clusters.

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Transition from a Bloch-Wilson to a free-electron density of states in Zn _n ^- clusters

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