Issue 17, 2016

Mapping the configuration dependence of electronic coupling in organic semiconductors

Abstract

The ability to effectively transport charge carriers is often a key determinant concerning the deployment of materials derived from π-conjugated molecules and polymers in (opto)electronic applications. Theoretical models to evaluate charge-carrier transport parameters across a range of organic materials often work under the approximation of evaluating the intermolecular electronic couplings for supermolecular complexes (i.e. dimers) in the neutral state. Here, we investigate how the explicit inclusion of the nature of the charged state (i.e. both the neutral and radical-cation states) impacts the assessment of the intermolecular electronic couplings, and how considerations of the density functionals often used to determine these couplings effect the computed magnitude. From a materials perspective, we explore the role that the dimer configuration plays in determining the magnitudes of the electronic couplings for oligoacenes. The results suggest that appropriate consideration of translational alignment along the long and short acene axes, even in configurations with near perpendicular edge-to-face interactions, can lead to molecular packing arrangements in the solid state with large electronic couplings. These results give insight into ways to fine tune solid-state molecular packing to ensure the highest possible electronic couplings.

Graphical abstract: Mapping the configuration dependence of electronic coupling in organic semiconductors

Supplementary files

Article information

Article type
Paper
Submitted
11 11 2015
Accepted
21 12 2015
First published
22 12 2015

J. Mater. Chem. C, 2016,4, 3825-3832

Mapping the configuration dependence of electronic coupling in organic semiconductors

K. J. Thorley and C. Risko, J. Mater. Chem. C, 2016, 4, 3825 DOI: 10.1039/C5TC03765D

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