| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1402405 | Journal of Molecular Structure | 2014 | 8 Pages |
•Hyperbranched molecules containing pyrrole units were synthetized.•These hyperbranched molecules show large electronic delocalization.•Theoretical results show that para-hyperbranched polymer has an uncommon symmetry.•The conductivity measurements indicated an energy band gap of 0.2 eV.•Microscopy studies identify two phases where self-assembling is important.
The electronic structure of hyperbranched polymers obtained from para-diaminodiphenyldiacetylenes as AB2 type monomers by one-step polymerization is studied using DFT calculations. Five generations are modelled with optimization at each step. As the molecule grows it shows a helical shape conserving the C2 symmetry with wing like fragments covering the backbone. There is accidental degeneracy of the HOMO with the HOMO-1 and of the HOMO-2 with the HOMO-3. The LUMO is always located at the backbone and the HOMO set at the dianyline-pyrrole fragment. The HOMO–LUMO gap decreases as the molecule grows. Conductivity measurements as well as microscopy studies of para-hyperbranched polymer were carried out. Conductivity measurements as a function of temperature show semiconductor behavior. Optical microscopy reveals a macroscopic crystalline structure of this hyperbranched polymer.
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