Ternary blends in RAINBOW side-by-side subcells raise measured PCE from 12.9% (single junction) to 15.9% (2-junction) and 17.3% (3-junction) using blade-coated devices, with simulations indicating further gains if wide-gap materials improve.
Rühle, Solar Energy 2016, 130, 139
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Loss analysis of 1.0 eV (Ag,Cu)(In,Ga)Se2 cells identifies dominant voltage losses from absorber non-radiative recombination and fill-factor losses from elevated diode factor due to space-charge-region recombination.
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Exploring the Potential of Ternary Blending for Two and Three-Junction RAINBOW Solar Cells
Ternary blends in RAINBOW side-by-side subcells raise measured PCE from 12.9% (single junction) to 15.9% (2-junction) and 17.3% (3-junction) using blade-coated devices, with simulations indicating further gains if wide-gap materials improve.
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Loss analysis of Low Bandgap (Ag,Cu)(In,Ga)Se2 Solar Cells for Tandem Applications
Loss analysis of 1.0 eV (Ag,Cu)(In,Ga)Se2 cells identifies dominant voltage losses from absorber non-radiative recombination and fill-factor losses from elevated diode factor due to space-charge-region recombination.