Effects of internal electric fields and electrostatic potentials on optical spectra of linear polyenes

Effects of internal electric fields and electrostatic potentials on optical spectra of linear polyenes

The distribution of the nuclear and electronic charges determine a molecule's chemical and physical behavior. The electric fields and electrostatic potentials that one molecule produces at another could not be effectively addressed experimentally because a sensitive probe for electrostatic effe...

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Bibliographic Details
Published in:Synthetic metals Vol. 84; no. 1; pp. 859 - 860
Main Authors: Kohler, Bryan E., Woehl, Jörg C.
Format: Journal Article Conference Proceeding
Language:English
Published: Lausanne Elsevier B.V 1997
Amsterdam Elsevier Science
New York, NY
Subjects:
Atomic and molecular physics
Exact sciences and technology
Laser spectroscopy
Molecular properties and interactions with photons
Molecular spectra
Physics
Semi-empirical models and model calculations
Semi-empirical models and model calculations
Laser spectroscopy
Electric field effects
Polyenes
Hole burning
Hydrocarbons
Stark effect
Absorption spectra
Experimental study
Electrostatic potential
Organic compounds
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Description
Summary:The distribution of the nuclear and electronic charges determine a molecule's chemical and physical behavior. The electric fields and electrostatic potentials that one molecule produces at another could not be effectively addressed experimentally because a sensitive probe for electrostatic effects at the atomic or molecular level was lacking. This is no longer the case. We have shown that it is possible to obtain detailed information about electric fields arising from molecular charge distributions by investigating the effects of externally applied electric fields on spectral holes burned into the absorption band of probe molecules. The experiments were carried out on the linear polyene all- trans-octatetraene (an important model system for conducting polymers like polyacetylene) in polycrystalline n-alkane matrices and resulted in surprisingly different Stark profiles for alkanes with almost identical dielectric properties. These observations are reconciled by our more detailed understanding of the microscopic structure of the chromophore sites in different alkane crystals.
ISSN:0379-6779
1879-3290
DOI:10.1016/S0379-6779(96)04182-3