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W2334083764 abstract "We present an analytical method for quantifying exciton hopping in an energetically disordered system with quenching sites. The method is subsequently used to provide a quantitative understanding of exciton hopping in a quantum dot (QD) array. Several statistical quantities that characterize the dynamics (survival probability, average number of distinct sites visited, average hopping distance, and average hopping rate in the initial stage) are obtained experimentally by measuring time-resolved fluorescence intensities at various temperatures. The time evolution of these quantities suggests in a quantitative way that at low temperature an exciton tends to be trapped at a local low-energy site, while at room temperature, exciton hopping occurs repeatedly, leading to a large hopping distance. This method will serve to facilitate highly efficient optoelectronic devices using QDs such as photovoltaic cells and light-emitting diodes, since exciton hopping is considered to strongly influence their operational parameters. The presence of a dark QD (quenching site) that exhibits fast decay is also quantified." @default.
W2334083764 created "2016-06-24" @default.
W2334083764 creator A5087926159 @default.
W2334083764 date "2013-10-04" @default.
W2334083764 modified "2023-09-26" @default.
W2334083764 title "Quantifying exciton hopping in disordered media with quenching sites: Application to arrays of quantum dots" @default.
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W2334083764 cites W1968771657 @default.
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W2334083764 cites W1978370921 @default.
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W2334083764 cites W2016864949 @default.
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W2334083764 doi "https://doi.org/10.1103/physrevb.88.155302" @default.
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