Experimental and theoretical studies of the electronic structure of Na-doped poly (para-phenylenevinylene)

M. Fahlman; D. Beljonne; M. Lögdlund; R. H. Friend; A. B. Holmes; Jean-Luc Bredas; W. R. Salaneck

doi:10.1016/0009-2614(93)85644-4

Experimental and theoretical studies of the electronic structure of Na-doped poly (para-phenylenevinylene)

M. Fahlman^*, D. Beljonne, M. Lögdlund, R. H. Friend, A. B. Holmes, Jean-Luc Bredas, W. R. Salaneck

^*Corresponding author for this work

Physical Sciences and Engineering

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Abstract

The electronic structure of sodium-doped poly (p-phenylenevinylene), or PPV, has been studied using photoelectron spectroscopy, UPS and XPS. Upon doping, two new states are created in the previously forbidden electronic bandgap. No finite density- of-states is observed at the Fermi energy. The UPS spectra are analysed with the help of VEH-level quantum chemical calculations. It is determined that the Na-doping of PPV results in the formation of bipolaron bands in the otherwise forbidden energy gap at saturation doping. These results are in contrast with the case of poly-hexyl-thiophene doped from NOPF ₆ , where the existence of a finite density-of-states at E _F and a stable polaron lattice was observed at saturation doping at room temperature. This work represents the first direct measure of multiple, resolved gap states in a doped conjugated polymer.

Original language	English (US)
Pages (from-to)	327-332
Number of pages	6
Journal	Chemical Physics Letters
Volume	214
Issue number	3-4
DOIs	https://doi.org/10.1016/0009-2614(93)85644-4
State	Published - Nov 5 1993

ASJC Scopus subject areas

Physics and Astronomy(all)
Physical and Theoretical Chemistry

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title = "Experimental and theoretical studies of the electronic structure of Na-doped poly (para-phenylenevinylene)",

abstract = " The electronic structure of sodium-doped poly (p-phenylenevinylene), or PPV, has been studied using photoelectron spectroscopy, UPS and XPS. Upon doping, two new states are created in the previously forbidden electronic bandgap. No finite density- of-states is observed at the Fermi energy. The UPS spectra are analysed with the help of VEH-level quantum chemical calculations. It is determined that the Na-doping of PPV results in the formation of bipolaron bands in the otherwise forbidden energy gap at saturation doping. These results are in contrast with the case of poly-hexyl-thiophene doped from NOPF 6 , where the existence of a finite density-of-states at E F and a stable polaron lattice was observed at saturation doping at room temperature. This work represents the first direct measure of multiple, resolved gap states in a doped conjugated polymer.",

author = "M. Fahlman and D. Beljonne and M. L{\"o}gdlund and Friend, {R. H.} and Holmes, {A. B.} and Jean-Luc Bredas and Salaneck, {W. R.}",

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T1 - Experimental and theoretical studies of the electronic structure of Na-doped poly (para-phenylenevinylene)

AU - Fahlman, M.

AU - Beljonne, D.

AU - Lögdlund, M.

AU - Friend, R. H.

AU - Holmes, A. B.

AU - Bredas, Jean-Luc

AU - Salaneck, W. R.

PY - 1993/11/5

Y1 - 1993/11/5

N2 - The electronic structure of sodium-doped poly (p-phenylenevinylene), or PPV, has been studied using photoelectron spectroscopy, UPS and XPS. Upon doping, two new states are created in the previously forbidden electronic bandgap. No finite density- of-states is observed at the Fermi energy. The UPS spectra are analysed with the help of VEH-level quantum chemical calculations. It is determined that the Na-doping of PPV results in the formation of bipolaron bands in the otherwise forbidden energy gap at saturation doping. These results are in contrast with the case of poly-hexyl-thiophene doped from NOPF 6 , where the existence of a finite density-of-states at E F and a stable polaron lattice was observed at saturation doping at room temperature. This work represents the first direct measure of multiple, resolved gap states in a doped conjugated polymer.

AB - The electronic structure of sodium-doped poly (p-phenylenevinylene), or PPV, has been studied using photoelectron spectroscopy, UPS and XPS. Upon doping, two new states are created in the previously forbidden electronic bandgap. No finite density- of-states is observed at the Fermi energy. The UPS spectra are analysed with the help of VEH-level quantum chemical calculations. It is determined that the Na-doping of PPV results in the formation of bipolaron bands in the otherwise forbidden energy gap at saturation doping. These results are in contrast with the case of poly-hexyl-thiophene doped from NOPF 6 , where the existence of a finite density-of-states at E F and a stable polaron lattice was observed at saturation doping at room temperature. This work represents the first direct measure of multiple, resolved gap states in a doped conjugated polymer.

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JO - Chemical Physics Letters

JF - Chemical Physics Letters

IS - 3-4

ER -

Experimental and theoretical studies of the electronic structure of Na-doped poly (para-phenylenevinylene)

Abstract

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