Modeling and simulation for dye-sensitized solar cells. Yong, V., Ho, S., & Chang, R. P H Applied Physics Letters, 2008. cited By (since 1996) 11Paper abstract bibtex We developed an equivalent circuit for dye-sensitized solar cells, which provides a more accurate presentation and a better fit to the experimental I-V curves and Nyquist plots than earlier literature results, as verified by simulation. A simple expression for the estimation of the Warburg coefficient from the experimental Nyquist plot is also proposed in this letter. The simulated I-V curves and Nyquist plots are in good agreement with the experimental data. The interfacial charge transfer and recombination losses at the oxide/dye/electrolyte interface are found to be the most influential factor on the overall conversion efficiency. © 2008 American Institute of Physics.
@article{yong_modeling_2008,
title = {Modeling and simulation for dye-sensitized solar cells},
volume = {92},
url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-42149106880&partnerID=40&md5=bab129ae57e89fd5b484fdc8942a53a1},
abstract = {We developed an equivalent circuit for dye-sensitized solar cells, which provides a more accurate presentation and a better fit to the experimental I-V curves and Nyquist plots than earlier literature results, as verified by simulation. A simple expression for the estimation of the Warburg coefficient from the experimental Nyquist plot is also proposed in this letter. The simulated I-V curves and Nyquist plots are in good agreement with the experimental data. The interfacial charge transfer and recombination losses at the oxide/dye/electrolyte interface are found to be the most influential factor on the overall conversion efficiency. © 2008 American Institute of Physics.},
number = {14},
journal = {Applied Physics Letters},
author = {Yong, Virginia and Ho, Seng-Tiong and Chang, Robert P H},
year = {2008},
note = {cited By (since 1996) 11}
}
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