Experiments on carrier recombination in two-dimensional organic structures are often interpreted in the frame of the Langevin model with taking into account only the drift of the charge carriers in their mutual electric field. While this approach is well justified for three-dimensional systems, it is in general not valid for two-dimensional structures where the contribution of diffusion can play a dominant role. We study the two-dimensional Langevin recombination theoretically and find the critical concentration below which diffusion cannot be neglected. For typical experimental conditions, neglecting the diffusion leads to an underestimation of the recombination rate by several times.

Topics
Monte Carlo methods, Condensed matter physics, Organic semiconductors, Charge recombination, Electron density, Recombination reactions, Optoelectronic properties, Leptons, Solar cells, Lamellar structure
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2010
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