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Symmetry Effects on Nonlocal Electron-Phonon Coupling in Organic Semiconductors

The electronic and electrical properties of crystalline organic semiconductors, such as the dispersions of the electronic bands and the dependence of charge-carrier mobility on temperature, are greatly impacted by the nonlocal electron-phonon interactions associated with intermolecular lattice vibrations. Here, we present a theoretical description that underlines that these properties vary differently as a function of the symmetry of the nonlocal electron-phonon coupling mechanism. The electron-phonon coupling patterns in real space are seen to have a direct and significant impact on the interactions in reciprocal space. Our findings demonstrate the importance of aspects that are usually missing in current transport models. Importantly, an adequate description of the electronic and charge-transport properties of organic semiconductors requires that the models take into account both antisymmetric and symmetric contributions to the nonlocal electron-phonon coupling mechanism.

preprint2012arXivOpen access
Yuan LiYuanping YiVeaceslav CoropceanuJean-Luc Brédas
cond-mat.mtrl-sci
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Yuan LiYuanping YiVeaceslav CoropceanuJean-Luc Brédas

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