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W2082273905 abstract "A density matrix based description of charge transmission through a single molecule attached to two nano-electrodes is presented. By concentrating on a steady state situation the net current, electronic state populations and nonequilibrium vibrational distributions are computed. The dependence of these quantities on the applied voltage and on a cw-infrared as well as optical excitation is discussed. Effects are included of intra-molecular vibrational energy redistribution (IVR), of different charging states, and of an electron–hole pair generation in the leads. The considerations are valid for a sequential mechanism of charge transmission through the molecule. A possible current switch due to an infrared as well as an optical excitation is demonstrated and the crucial dependence of the switching mechanism on the strength of IVR is underlined. If the molecule attached to nano-electrodes is a part of an oligomer or supramolecular chromophore complex the current can be controlled by an external field induced Frenkel-exciton formation." @default.
W2082273905 created "2016-06-24" @default.
W2082273905 creator A5000408212 @default.
W2082273905 creator A5025471644 @default.
W2082273905 date "2010-10-01" @default.
W2082273905 modified "2023-09-23" @default.
W2082273905 title "Charge transmission through single molecules: Effects of nonequilibrium molecular vibrations and photoinduced transitions" @default.
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W2082273905 cites W2008130147 @default.
W2082273905 cites W2010195097 @default.
W2082273905 cites W2010693584 @default.
W2082273905 cites W2014208343 @default.
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W2082273905 cites W2030751042 @default.
W2082273905 cites W2042666888 @default.
W2082273905 cites W2046300665 @default.
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W2082273905 cites W2048789600 @default.
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W2082273905 cites W2058895267 @default.
W2082273905 cites W2062174774 @default.
W2082273905 cites W2065283564 @default.
W2082273905 cites W2079547732 @default.
W2082273905 cites W2087634138 @default.
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W2082273905 doi "https://doi.org/10.1016/j.chemphys.2010.05.021" @default.
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