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Strain-balanced type-II superlattices for efficient multi-junction solar cells

We propose type-II GaAsSb/GaAsN superlattices (SLs) lattice-matched to GaAs as a novel material for the 1 eV sub-cells present in highly efficient GaAs/Ge-based multi-junction solar cells. We demonstrate that, among other benefits, the spatial separation of Sb and N allows a better control over composition and lattice matching, avoiding the growth problems related to the concomitant presence of both elements in GaAsSbN layers. This approach not only reduces clustering and improves crystal quality and interface abruptness, but also allows for additional control of the effective bandgap in the 1.0-1.15 eV spectral region through the SL period thickness. The optimized SL structure exhibits a type-II band alignment and strong electronic coupling at 0 V. Both effects cooperate to increase the minority carrier collection and leads to a net strong enhancement of the external quantum efficiency (EQE) under photovoltaic conditions with respect to bulk layers of equivalent thickness.

preprint2016arXivOpen access
A. GonzaloA. D. UtrillaD. F. ReyesV. BrazaJ. M. LlorensD. Fuertes MarronB. AlenT. BenD. GonzalezA. GuzmanA. HierroJ. M. Ulloa
cond-mat.mtrl-sci
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Open access12 authors1 topic
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A. GonzaloA. D. UtrillaD. F. ReyesV. BrazaJ. M. LlorensD. Fuertes MarronB. AlenT. BenD. GonzalezA. GuzmanA. HierroJ. M. Ulloa

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