Highly absorbing solar cells - a survey of plasmonic nanostructures

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Optics Express. 2012, 20(S2), pp. A177-A189. eISSN 1094-4087. Available under: doi: 10.1364/OE.20.00A177
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Plasmonic light trapping in thin film solar cells is investigated using full-wave electromagnetic simulations. Light absorption in the semiconductor layer with three standard plasmonic solar cell geometries is compared to absorption in a flat layer. We identify near-field absorption enhancement due to the excitation of localized surface plasmons but find that it is not necessary for strong light trapping in these configurations: significant enhancements are also found if the real metal is replaced by a perfect conductor, where scattering is the only available enhancement mechanism. The absorption in a 60 nm thick organic semiconductor film is found to be enhanced by up to 19% using dispersed silver nanoparticles, and up to 13% using a nanostructured electrode. External in-scattering nanoparticles strongly limit semiconductor absorption via back-reflection.

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ISO 690DUNBAR, Ricky B., Thomas PFADLER, Lukas SCHMIDT-MENDE, 2012. Highly absorbing solar cells - a survey of plasmonic nanostructures. In: Optics Express. 2012, 20(S2), pp. A177-A189. eISSN 1094-4087. Available under: doi: 10.1364/OE.20.00A177
BibTex
@article{Dunbar2012-03-12Highl-22128,
  year={2012},
  doi={10.1364/OE.20.00A177},
  title={Highly absorbing solar cells - a survey of plasmonic nanostructures},
  number={S2},
  volume={20},
  journal={Optics Express},
  pages={A177--A189},
  author={Dunbar, Ricky B. and Pfadler, Thomas and Schmidt-Mende, Lukas}
}
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