Orbital-symmetry-dependent electron transfer through molecules assembled on metal substrates

Florian Blobner; Pedro B. Coto; Francesco Allegretti; Michel Bockstedte; Oscar Rubio-Pons; Haobin Wang; David L. Allara; Michael Zharnikov; Michael Thoss; Peter Feulner

doi:10.1021/jz2015567

Orbital-symmetry-dependent electron transfer through molecules assembled on metal substrates

Florian Blobner, Pedro B. Coto, Francesco Allegretti, Michel Bockstedte, Oscar Rubio-Pons, Haobin Wang, David L. Allara, Michael Zharnikov, Michael Thoss, Peter Feulner

Chair of Experimental Physics

Research output: Contribution to journal › Review article › peer-review

36 Scopus citations

Abstract

Femtosecond charge-transfer dynamics in self-assembled monolayers of cyano-terminated ethane-thiolate on gold substrates was investigated with the core hole clock method. By exploiting symmetry selection rules rather than energetic selection, electrons from the nitrogen K-shell are state-selectively excited into the two symmetry-split π* orbitals of the cyano end group with X-ray photons of well-defined polarization. The charge-transfer times from these temporarily occupied orbitals to the metal substrate differ significantly. Theoretical calculations show that these two π* orbitals extend differently onto the alkane backbone and the anchoring sulfur atom, thus causing the observed dependence of the electron-transfer dynamics on the symmetry of the orbital.

Original language	English
Pages (from-to)	436-440
Number of pages	5
Journal	Journal of Physical Chemistry Letters
Volume	3
Issue number	3
DOIs	https://doi.org/10.1021/jz2015567
State	Published - 2 Feb 2012

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title = "Orbital-symmetry-dependent electron transfer through molecules assembled on metal substrates",

abstract = "Femtosecond charge-transfer dynamics in self-assembled monolayers of cyano-terminated ethane-thiolate on gold substrates was investigated with the core hole clock method. By exploiting symmetry selection rules rather than energetic selection, electrons from the nitrogen K-shell are state-selectively excited into the two symmetry-split π* orbitals of the cyano end group with X-ray photons of well-defined polarization. The charge-transfer times from these temporarily occupied orbitals to the metal substrate differ significantly. Theoretical calculations show that these two π* orbitals extend differently onto the alkane backbone and the anchoring sulfur atom, thus causing the observed dependence of the electron-transfer dynamics on the symmetry of the orbital.",

author = "Florian Blobner and Coto, {Pedro B.} and Francesco Allegretti and Michel Bockstedte and Oscar Rubio-Pons and Haobin Wang and Allara, {David L.} and Michael Zharnikov and Michael Thoss and Peter Feulner",

year = "2012",

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doi = "10.1021/jz2015567",

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T1 - Orbital-symmetry-dependent electron transfer through molecules assembled on metal substrates

AU - Blobner, Florian

AU - Coto, Pedro B.

AU - Allegretti, Francesco

AU - Bockstedte, Michel

AU - Rubio-Pons, Oscar

AU - Wang, Haobin

AU - Allara, David L.

AU - Zharnikov, Michael

AU - Thoss, Michael

AU - Feulner, Peter

PY - 2012/2/2

Y1 - 2012/2/2

N2 - Femtosecond charge-transfer dynamics in self-assembled monolayers of cyano-terminated ethane-thiolate on gold substrates was investigated with the core hole clock method. By exploiting symmetry selection rules rather than energetic selection, electrons from the nitrogen K-shell are state-selectively excited into the two symmetry-split π* orbitals of the cyano end group with X-ray photons of well-defined polarization. The charge-transfer times from these temporarily occupied orbitals to the metal substrate differ significantly. Theoretical calculations show that these two π* orbitals extend differently onto the alkane backbone and the anchoring sulfur atom, thus causing the observed dependence of the electron-transfer dynamics on the symmetry of the orbital.

AB - Femtosecond charge-transfer dynamics in self-assembled monolayers of cyano-terminated ethane-thiolate on gold substrates was investigated with the core hole clock method. By exploiting symmetry selection rules rather than energetic selection, electrons from the nitrogen K-shell are state-selectively excited into the two symmetry-split π* orbitals of the cyano end group with X-ray photons of well-defined polarization. The charge-transfer times from these temporarily occupied orbitals to the metal substrate differ significantly. Theoretical calculations show that these two π* orbitals extend differently onto the alkane backbone and the anchoring sulfur atom, thus causing the observed dependence of the electron-transfer dynamics on the symmetry of the orbital.

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DO - 10.1021/jz2015567

M3 - Review article

AN - SCOPUS:84863063123

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VL - 3

SP - 436

EP - 440

JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

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ER -

Orbital-symmetry-dependent electron transfer through molecules assembled on metal substrates

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