Title

Solitonic Waves In Polyene Dications And Principles Of Charge Carrier Localization In Π-Conjugated Organic Materials

Keywords

charge carrier; linear conjugated systems; molecular wires; neutral polyenes; organic photovoltaics; organic semiconductors; polyene dications; polymethine dyes; solitonic wave; wave of bond length alternation; wave of charge

Abstract

The quantum-chemical investigations by ab initio method (restricted Hartree-Fock/6-31G) have been performed for a series of unsubstituted, monosubstituted, and disubstituted neutral polyenes and their double charged cations. The waves of charge alternation (characterized by the difference in the electron densities at the nearest carbon atoms or δq function) and bond length alternation (characterized by the lengths difference of the nearest carbon-carbon bonds or δl function) are reported. Comparisons are made with the corresponding monocationic polymethine molecules. We found that ionization by two electrons results in formation of two solitonic waves of charge alternation, rather than superposition of two overlapping solitonic waves into one. These waves behave similar to two independent elastic particles, which do not penetrate into each other despite the special confinement by the length of chromophore π-system. In monosubstituted polyene dication, δq and δl functions contain two waves each; however, only one wave is mobile and sensitive to a change of the chemical nature of the terminal group, whereas the second wave remains practically unchanged. The introduction of one oxymethyl or phenyl terminal groups leads to a relatively small shift of the mobile wave from the center to a direction of the terminal group. The effect of the amino or tropilium terminal groups is much more pronounced and leads to a shift of the mobile wave to the end of the molecule. In disubstituted polyene dication, both solitonic waves become mobile and shift symmetrically to both ends. The general principles of the charge localization described in this study may be used in molecular design and fine-tuning of the charge transport properties in plastic photovoltaics and other organic semiconducting materials. Copyright © 2012 Wiley Periodicals, Inc.

Publication Date

7-15-2012

Publication Title

International Journal of Quantum Chemistry

Volume

112

Issue

14

Number of Pages

2659-2667

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1002/qua.23281

Socpus ID

84862572519 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84862572519

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