Organic Semiconductors: Impact of Disorder at Different Timescales |
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Authors: | David P McMahon Alessandro Troisi Dr |
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Institution: | Department of Chemistry and Centre for Scientific Computing, University of Warwick, Coventry, CV4 7AL (UK), Fax: (+44)?24?765?23228 |
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Abstract: | The charge transport in organic materials, from molecular crystals to polymers, is determined by their degree of disorder. The dynamic disorder in ideal molecular crystals at room temperature and the static disorder in disordered polymers are just two limiting cases of the timescale of the fluctuations in the electronic Hamiltonian caused by nuclear motions. In fact, a very large number of important materials (e.g. liquid crystalline semiconductors) are actually in an intermediate regime where the disorder is neither purely static nor purely dynamic. This Minireview discusses the recent contribution of computational chemistry (molecular dynamics and quantum chemistry) to the characterization of these transport regimes and outlines the theoretical methods that can be used to relate the system characteristics to the measurable mobility. |
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Keywords: | disorder molecular dynamics organic electronics polymers quantum chemistry |
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