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Comparing nanowire, multijunction, and single junction solar cells in the presence of light trapping

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Authors

Catchpole, Kylie
Mokkapati, S.
Beck, Fiona

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American Institute of Physics

Abstract

In this paper we quantify the constraints and opportunities for radial junctionnanowiresolar cells, compared to single junction and multijunction solar cells, when light trapping is included. Both nanowire and multijunction designs are reliant on a very low level of traps in the junction region, and without this, single junction designs are optimal. If low trap density at the junction can be achieved, multijunction cells lead to higher efficiencies than nanowire cells for a given diffusion length, except in the case of submicron diffusion lengths. Thus the radial junctionstructure is not in itself an advantage in general, though if nanowires allow faster deposition or better light trapping than other structures they could still prove advantageous.

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Journal of Applied Physics

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Open Access

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