2004
DOI: 10.1021/jp035397i
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Chemical Diffusion Coefficient of Electrons in Nanostructured Semiconductor Electrodes and Dye-Sensitized Solar Cells

Abstract: The properties and physical interpretation of the electron diffusion coefficient, D n , observed in nanostructured semiconductors and dye-sensitized solar cells by small perturbation electrical and electrooptical techniques are investigated. The chemical diffusion coefficient is defined as the product of a thermodynamic factor (that accounts for the effect of nonideal statistics in a gradient of chemical potential) and a jump diffusion coefficient (that depends on average hopping distances and rates). The ther… Show more

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Cited by 163 publications
(175 citation statements)
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References 59 publications
(145 reference statements)
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“…The OF is given by (-S+1) where S is the slope of log(τ) vs log(Q) in figure 5d. 44,45 We can make this calculation for the short and long lifetimes and total or above baseline charge (table 1). If the implied recombination current is not physically reasonable, then the specific TPV decay is unlikely to be a measure of recombination in the cell.…”
Section: Implied Recombination Flux At V Ocmentioning
confidence: 99%
“…The OF is given by (-S+1) where S is the slope of log(τ) vs log(Q) in figure 5d. 44,45 We can make this calculation for the short and long lifetimes and total or above baseline charge (table 1). If the implied recombination current is not physically reasonable, then the specific TPV decay is unlikely to be a measure of recombination in the cell.…”
Section: Implied Recombination Flux At V Ocmentioning
confidence: 99%
“…Additionally changes may occur in the local electrostatic level associated with self-charging of the phase or interaction of the carriers. 55 In contrast, for metals and highly doped semiconductors, the DOS at the Fermi level is very high. Significant changes in the density of carriers, as an effect of an applied potential, are not possible, because the Fermi level is pinned at a fixed energy level.…”
Section: Basic Features Of Nanostructured Electrochemical Devicesmentioning
confidence: 99%
“…13,68,72,[129][130][131][132][133][134][135] Using quasi-equilibrium arguments, the variations of both diffusion coefficient and lifetime were attributed to the statistics of electrons in the material, which deviates from dilution, as described by thermodynamic factors. 136 The varying D n was recognized as a chemical diffusion coefficient, 55,127 and the correlation between variations of D n and t n , 135 was explained by a common origin of their variations in an exponential distribution in the bandgap. 95,136 The application of the multiple trapping model in DSC will be described in detail in section 3.4.…”
Section: Transport Propertiesmentioning
confidence: 99%
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