Abstract
The bipolarons appear to be the main entity for charge collection in conducting polymers. But their existence is challenged by the Coulomb repulsion. We study the stability of a bipolaron (BP) as a function of the strength of the long range Coulomb interaction U with and without impurities for both weak and strong electron-phonon coupling (α). We find that in a free state the BP is stable only for small values of U for the weak coupling limit but stays stable until relatively large U in the strong coupling case. Being bound to a dopant, the bipolaron becomes stable in a wide range of U. Free BPs near the metal-polymer contact also are stabilized due to a screening by image charges. These results are important for charge injection at polymer-metal interfaces in the context of organic light-emitting diodes.
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