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Charge transfer at organic-inorganic interfaces

We studied the electron transfer from excitons in adsorbed indoline dye layers across the organic-inorganic interface. The hybrids consist of indoline derivatives on the one hand and different inorganic substrates (TiO$_2$, ZnO, SiO$_2$(0001), fused silica) on the other. We reveal the electron transfer times from excitons in dye layers to the organic-inorganic interface by analyzing the photoluminescence transients of the dye layers after femtosecond excitation and applying kinetic model calculations. A correlation between the transfer times and four parameters have been found:(i) the number of anchoring groups, (ii) the distance between the dye and the organic-inorganic interface, which was varied by the alkyl-chain lengths between the carboxylate anchoring group and the dye, (iii) the thickness of the adsorbed dye layer, and (iv) the level alignment between the excited dye ($π$*-level) and the conduction band minimum of the inorganic semiconductor.

preprint2016arXivOpen access
Ingo MeyenburgJane FalgenhauerNils W. RosemannSangam ChatterjeeDerck SchlettweinWolfram Heimbrodt
cond-mat.mtrl-sci
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Ingo MeyenburgJane FalgenhauerNils W. RosemannSangam ChatterjeeDerck SchlettweinWolfram Heimbrodt

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