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Paper detail

Doping front instabilities in organic semiconductors: a means for optimizing optoelectronic devices

Recently, it was demonstrated that electrochemical doping fronts in organic semiconductors ex- hibit a new fundamental instability growing from multidimensional perturbations [Phys. Rev. Lett. 107, 016103 (2011)]. In the instability development, linear growth of tiny perturbations goes over into a nonlinear stage of strongly distorted doping fronts. Here we develop the nonlinear theory of the doping front instability and predict the key parameters of a distorted doping front, such as its velocity, in close agreement with the experimental data. We show that the instability makes the electrochemical doping process considerably faster. We obtain the self-similar properties of the front shape corresponding to the maximal propagation velocity, which allows for a wide range of controlling the doping process in the experiments. The theory developed provides the guide for optimizing the performance of organic optoelectronic devices.

preprint2012arXivOpen access
V. BychkovO. YukhimenkoM. ModestovM. Marklund
cond-mat.mtrl-sci
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V. BychkovO. YukhimenkoM. ModestovM. Marklund

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