Designing optimized nano textures for thin-film silicon solar cells

Thin-film silicon solar cells (TFSSC), which can be manufactured from abundant materials solely, contain nano-textured interfaces that scatter the incident light. We present an approximate very fast algorithm that allows optimizing the surface morphology of two-dimensional nano-textured interfaces....

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Bibliographic Details
Published in:Optics express 2013-07, Vol.21 Suppl 4, p.A656-A668
Main Authors: Jäger, Klaus, Fischer, Marinus, van Swaaij, René A C M M, Zeman, Miro
Format: Article
Language:English
Online Access:Get full text
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Summary:Thin-film silicon solar cells (TFSSC), which can be manufactured from abundant materials solely, contain nano-textured interfaces that scatter the incident light. We present an approximate very fast algorithm that allows optimizing the surface morphology of two-dimensional nano-textured interfaces. Optimized nano-textures scatter the light incident on the solar cell stronger leading to a higher short-circuit current density and thus efficiency. Our algorithm combines a recently developed scattering model based on the scalar scattering theory, the Perlin-noise algorithm to generate the nano textures and the simulated annealing algorithm as optimization tool. The results presented in this letter allow to push the efficiency of TFSSC towards their theoretical limit.
ISSN:1094-4087
DOI:10.1364/OE.21.00A656