Density functional theory investigation of substituent effects on building blocks of conducting polymers
Date
1999Source Title
Synthetic Metals
Print ISSN
0379-6779
Publisher
Elsevier
Volume
101
Issue
1
Pages
482 - 483
Language
English
Type
ArticleItem Usage Stats
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Abstract
Substituted heterocyclic dimers were calculated employing density functional theory (DFT) and analyzed with the natural bond orbits method (NBO). Substitution in 3- and 4-positions leads to parallel shifting of HOMO and LUMO but does not reduce energy gaps. For bridge dimers, HOMO-LUMO gaps correlate with π-electron densities in the carbon backbone and energy gap reduction correlate with the strength of π-π* interactions from the backbone to the bridging group. Alternating donor-acceptor groups do not reduce energy gaps and lead to systems with average HOMO and LUMO levels compared to the parent molecules.
Keywords
CalculationsChemical bonds
Electron energy levels
Electronic density of states
Energy gap
Polypyrroles
Probability density function
Semiconductor quantum wells
Substitution reactions
Aromatic polymers
Carrier concentration
Dimers
Sulfur compounds
Substituent effects
Substituted heterocyclic dimers
Natural bond orbital method (NBO)
Polythiophenes
Organic polymers
Semiconducting polymers