First principles electronic properties investigation of polythienoacene and its derivatives

Simon Pesant; Paul Boulanger; Guillaume Dumont; Michel C\^ot\'e

First principles electronic properties investigation of polythienoacene and its derivatives

ORAL

Abstract

The electronic properties of ladder-type polythiophene (polythienoacene) and its derivatives are studied using density functional theory. Upon an analysis of the variation of the band gap when comparing the non-ladder and the ladder-type polymers, a discrepancy is found between the thiophene and the pyrrole(nitrogen-substituted thiophene) polymer families. The polythienoacene has a larger band gap than the polythiophene whereas the opposite is found for the pyrrole polymers. Also, it is found that a simple alternation of the sulfur atom in polythienoacene structure by nitrogen or boron atoms can lead to small band gap polymers. The excitations of these polythienoacene's derivatives are investigated using time-dependent density functional theory.

^*This work was supported by grants from the FQRNT and CRSNG. The computational ressources were provided by the R\'eseau qu\'eb\'ecois de calcul de haute performance (RQCHP).

March 18, 2009, 2:54 PM – March 18, 2009, 3:06 PM

Authors

Simon Pesant
- D\'epartement de physique et Regroupement qu\'eb\'ecois sur les mat\'eriaux de pointe (RQMP), Universit\'e de Montr\'eal, Canada
Paul Boulanger
- D\'epartement de physique et Regroupement qu\'eb\'ecois sur les mat\'eriaux de pointe (RQMP), Universit\'e de Montr\'eal, Canada
Guillaume Dumont
- D\'epartement de physique et Regroupement qu\'eb\'ecois sur les mat\'eriaux de pointe (RQMP), Universit\'e de Montr\'eal, Canada
Michel C\^ot\'e
- D\'epartement de physique et Regroupement qu\'eb\'ecois sur les mat\'eriaux de pointe (RQMP), Universit\'e de Montr\'eal, Canada
- D\'epartement de physique, Regroupement qu\'eb\'ecois des mat\'eriaux de pointe (RQMP), Universit\'e de Montr\'eal, Canada