Monolithic two-terminal hybrid a-Si:H/CIGS tandem cells
conference paper
Copper-indium-gallium-di-selenide (CIGS) is the present record holder in lab-scale thin-film photovoltaics (TFPV). One of the problems of this PV technology is the scarcity of indium. Multi-junction solar cells allow better spectral utilization of the light spectrum, while the required current generation per layer is much lower, allowing much thinner absorber layers of CIGS. In this contribution we demonstrate working fabricated devices of CIGS bottom cells that are monolithically integrated with a hydrogenated amorphous silicon (a-Si:H) top cell. The proposed structures are a unique fusion of two distinct fabrication methods, being co-evaporation and plasma enhanced chemical vapor deposition (PE-CVD). In addition, devices without any ZnO have been processed. In those cells a nc-SiOx:H n-layer acted as an electron recipient and lateral insulator for the CIGS p-layer, and a highly p- and n-doped nc-SiOx:H layer served as the tunnel recombination junction. The top TCO on the a-Si:H cell was varied with ZnO:Al (AZO) and In2O3/Sn2O3
(ITO). Efficiencies of the not yet optimized devices have reached 7.9% active area efficiency (with Voc=1.23V, FF=64%, Jsc= 9.95 mA/cm2).
(ITO). Efficiencies of the not yet optimized devices have reached 7.9% active area efficiency (with Voc=1.23V, FF=64%, Jsc= 9.95 mA/cm2).
Topics
Amorphous siliconDoping additivesEfficiencyIndiumPlasma CVDPlasma enhanced chemical vapor depositionSilicon oxidesZinc oxideActive-area efficiencyHydrogenated amorphous siliconA-Si:HMonolithically integratedPE CVDSpectral utilizationThin film photovoltaicsTunnel recombination junctionsMulti-junction solar cells
TNO Identifier
575370
ISSN
01608371
ISBN
9781509027248
Publisher
Institute of Electrical and Electronics Engineers Inc.
Article nr.
7749670
Source title
43rd IEEE Photovoltaic Specialists Conference, PVSC 2016. 5 June 2016 through 10 June 2016
Pages
611-614
Files
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