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2 May 2012 Light trapping in thin film solar cells: towards the Lambertian limit
Lucio Claudio Andreani, Angelo Bozzola, Marco Liscidini
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Proceedings Volume 8438, Photonics for Solar Energy Systems IV; 84380C (2012) https://doi.org/10.1117/12.922090
Event: SPIE Photonics Europe, 2012, Brussels, Belgium
Abstract
In this work we theoretically investigate the light trapping properties of one- and two-dimensional periodic patterns etched in crystalline silicon solar cells with anti-reflection coating and back-reflector, in a wide range of active material thicknesses. The resulting short-circuit current (taken as the figure of merit for efficiency) and the optical spectra are compared with those of an unpatterned cell, and with the ultimate limits to light trapping in the case of a Lambertian (isotropic) scatterer. Photonic patterns are found to give a substantial absorption enhancement, especially for twodimensional patterns and for thinner cells, thanks to physical mechanisms like reduction of reflection losses, diffraction of light into the cell, and coupling into the resonant optical modes of the structure.
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Lucio Claudio Andreani, Angelo Bozzola, and Marco Liscidini "Light trapping in thin film solar cells: towards the Lambertian limit", Proc. SPIE 8438, Photonics for Solar Energy Systems IV, 84380C (2 May 2012); https://doi.org/10.1117/12.922090
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Cited by 3 scholarly publications.
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KEYWORDS
Solar cells
Absorption
Thin film solar cells
Silicon
Thin films
Diffraction
Photonic crystals
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