Journal
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
Volume 16, Issue 3, Pages 1132-1138Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c3cp53834f
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Funding
- Engineering and Physical Sciences Research Council (EPSRC) APEX project
- EPSRC Excitonic Cells Consortium
- European Union [316494]
- EPSRC Supersolar Hub
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Ionizing chemical dopants are widely used in organic semiconductors to enhance the charge transport properties by increasing the number of mobile charge carriers. However, together with mobile charges, chemical doping produces anion-cation pairs in the organic matrix. In this work we use experimental and computational analysis to study the influence of these ionic species on the charge transport. We show that the anion-cation pairs introduced upon doping have a detrimental, doping-level dependent effect on charge mobility. For doping levels of 0.02-0.05% molar ratio with respect to the molecular organic semiconductor, the increase in conductivity from the extra mobile charges is partially cancelled by a reduction in charge mobility from traps introduced by the anion-cation pairs. As the doping concentration increases, anion-cation pairs start to overlap, resulting in a comparatively smoother potential landscape, which increases the charge mobility to values closer to the undoped semiconductor. This result has a significant, practical impact, as it shows the need to dope at or slightly above a threshold level, which depends on the specific host-dopant combination.
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