Light Trapping in Thin Crystalline Si Solar Cells Using Surface Mie Scatterers

Light Trapping in Thin Crystalline Si Solar Cells Using Surface Mie Scatterers

Dielectric nanoparticles placed on top of a thin-film solar cell strongly enhance light absorption in the cell over a broad spectral range due to the preferential forward scattering of light from leaky Mie resonances in the particle. In this study, we systematically study with numerical simulations...

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Veröffentlicht in:IEEE journal of photovoltaics 2014-03, Vol.4 (2), p.554-559
Hauptverfasser: Spinelli, Pierpaolo, Polman, Albert
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
Coatings
Nanophotonics
Photovoltaic cells
Silicon
Slabs
solar cells
Surface treatment
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Zusammenfassung:Dielectric nanoparticles placed on top of a thin-film solar cell strongly enhance light absorption in the cell over a broad spectral range due to the preferential forward scattering of light from leaky Mie resonances in the particle. In this study, we systematically study with numerical simulations the absorption of light into thin (1-100 μm) crystalline Si solar cells patterned with Si nanocylinder arrays on top of the cell. We then use an analytical model to calculate the solar cell efficiency, based on the simulated absorption spectra. Using realistic values for bulk and surface recombination rates, we find that a 20-μm-thick Si solar cell with 21.5% efficiency can be made by using the Si nanocylinder Mie coating.
ISSN:2156-3381
2156-3403
DOI:10.1109/JPHOTOV.2013.2292744