Journal ArticleDOI
Efficiency calculations for thin-film polycrystalline semiconductor p-n junction solar cells
C. Lanza,H.J. Hovel +1 more
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In this paper, the effect of grain size on the short-circuit current and the AM1 efficiency of polycrystalline thin-film GaAs and InP (2 µm thick) and silicon (25 µm) p-n junction solar cells was investigated.Abstract:
Numerical calculations have been made of the effect of grain size on the short-circuit current and the AM1 efficiency of polycrystalline thin-film GaAs and InP (2 µm thick) and silicon (25 µm thick) p-n junction solar cells. Junction solar cells are seen to be more efficient than Schottky-barrier cells, due to the higher dark current associated with Schottky diodes. GaAs shows the highest efficiency and both GaAs and InP attain 90 percent of their maximum efficiencies at a grain size of 10 µm, while silicon requires grain sizes of 200 µm to attain 90 percent of maximum efficiency. However, the deleterious effect of poor lifetimes and mobilities is less for silicon polycrystalline cells than for the direct-bandgap devices.read more
Citations
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Journal ArticleDOI
Direct calculation of two‐dimensional collection probability in pn junction solar cells, and study of grain‐boundary recombination in polycrystalline silicon cells
TL;DR: In this paper, a method for the direct calculation of the two-dimensional collection probability in pn junction solar cells is presented, based on its reciprocity properties, the inhomogeneous continuity equation for excess carriers is transformed to a homogeneous partial differential equation (PDE) for the probability of carriers being collected in the external circuit.
Journal ArticleDOI
Carrier recombination at grain boundaries in polycrystalline silicon under optical illumination
TL;DR: In this paper, a new relation for the grain boundary potential barrier height under optical illumination is presented, and the dependence of the barrier height at grain boundary on the grain size has also been investigated theoretically.
Journal ArticleDOI
Efficiency considerations for polycrystalline GaAs thin-film solar cells
Masafumi Yamaguchi,Yoshio Itoh +1 more
TL;DR: In this article, the effect of grain boundaries on the efficiency of polycrystalline GaAs thin-film solar cells was analyzed, where grain boundaries act as recombination centers to reduce the minority-carrier diffusion length in the solar cell's active layer and increase the space charge layer recombination current.
Journal ArticleDOI
Analysis of minority-carrier transport in polysilicon devices
Jerry G. Fossum,R. Sundaresan +1 more
TL;DR: In this paper, the grain-boundary recombination analysis, which is based on quasi-equilibrium in the space charge region, is separated from the intragrain transport analysis by partitioning the grain into subregions in which the minority-carrier flow is predominantly one-dimensional.
Proceedings ArticleDOI
Requirements for a 20%-efficient polycrystalline GaAs solar cell
Sarah Kurtz,Robert McConnell +1 more
TL;DR: In this paper, the material and performance requirements for high-efficiency, potentially low-cost, GaAs solar cells were explored based on a literature review, and the potential impact of grain size, grain-boundary passivation, intragrain defects, impurities, and crystal orientation on cell efficiency was discussed.
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