Title:
Chromophores in phenylenevinylene-based conjugated polymers: Role of conformational kinks and chemical defects
Chromophores in phenylenevinylene-based conjugated polymers: Role of conformational kinks and chemical defects
Files
Author(s)
Hennebicq, Emmanuelle
Deleener, Caroline
Scholes, Gregory D.
Beljonne, David
Brédas, Jean-Luc
Deleener, Caroline
Scholes, Gregory D.
Beljonne, David
Brédas, Jean-Luc
Advisor(s)
Editor(s)
Collections
Supplementary to
Permanent Link
Abstract
The influence of chemical defects and conformational kinks on the nature of the lowest electronic excitations in phenylenevinylene-based polymers is assessed at the semiempirical quantum-chemical level. The amount of excited-state localization and the amplitude of through-space (Coulomb-like) versus through-bond (charge-transfer-like) interactions have been quantified by comparing the results provided by excitonic and supermolecular models. While excitation delocalization among conjugated segments delineated by the defects occurs in the acceptor configuration, self-confinement on individual chromophores follows from geometric relaxation in the excited-state donor configuration. The extent of excited-state localization is found to be sensitive to both the nature of the defect and the length of the conjugated chains. Implications for resonant energy transfer along conjugated polymer chains are discussed.
Sponsor
Date Issued
2006-07
Extent
Resource Type
Text
Resource Subtype
Article