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Integration of a 2D Periodic Nanopattern Into Thin Film Polycrystalline Silicon Solar Cells by Nanoimprint Lithography

The integration of two-dimensional (2D) periodic nanopattern defined by nanoimprint lithography and dry etching into aluminum induced crystallization (AIC) based polycrystalline silicon (Poly-Si) thin film solar cells is investigated experimentally. Compared to the unpatterned cell an increase of 6% in the light absorption has been achieved thanks to the nanopattern which, in turn, increased the short circuit current from 20.6 mA/cm2 to 23.8 mA/cm2. The efficiency, on the other hand, has limitedly increased from 6.4% to 6.7%. We show using the transfer length method (TLM) that the surface topography modification caused by the nanopattern has increased the sheet resistance of the antireflection coating (ARC) layer as well as the contact resistance between the ARC layer and the emitter front contacts. This, in turn, resulted in increased series resistance of the nanopatterned cell which has translated into a decreased fill factor, explaining the limited increase in efficiency.

preprint2015arXivOpen access
Islam AbdoChristos TrompoukisJan DeckersValérie DepauwLoic TousDries Van GestelRafik GuindiIvan GordonOunsi El Daif
cond-mat.mtrl-sciphysics.optics
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Open access9 authors2 topics
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Islam AbdoChristos TrompoukisJan DeckersValérie DepauwLoic TousDries Van GestelRafik GuindiIvan GordonOunsi El Daif

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