AI Article Synopsis
- The authors use quantum-chemical calculations to derive parameters for the exciton scattering (ES) model in phenylacetylene-based molecules.
- They calculate the exciton dispersion and frequency-dependent scattering matrices to examine the scattering features of molecular ends and different link types.
- The results align well with quantum-chemical data on excitation energies, supporting the accuracy of the exciton scattering model.
Article Abstract
We obtain the parameters of the exciton scattering (ES) model from the quantum-chemical calculations of the electronic excitations in simple phenylacetylene-based molecules. We determine the exciton dispersion and the frequency-dependent scattering matrices which describe scattering properties of the molecular ends as well as of meta- and orthoconjugated links. The extracted functions are smooth, which confirms the validity of the ES picture. We find a good agreement between the ES and quantum-chemical results for the excitation energies in simple test molecules.
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| http://dx.doi.org/10.1063/1.3005648 | DOI Listing |
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