Interface modification effect between p-type a-SiC:H and ZnO:Al in p-i-n amorphous silicon solar cells
نویسندگان
چکیده
Aluminum-doped zinc oxide (ZnO:Al) [AZO] is a good candidate to be used as a transparent conducting oxide [TCO]. For solar cells having a hydrogenated amorphous silicon carbide [a-SiC:H] or hydrogenated amorphous silicon [a-Si:H] window layer, the use of the AZO as TCO results in a deterioration of fill factor [FF], so fluorine-doped tin oxide (Sn02:F) [FTO] is usually preferred as a TCO. In this study, interface engineering is carried out at the AZO and p-type a-SiC:H interface to obtain a better solar cell performance without loss in the FF. The abrupt potential barrier at the interface of AZO and p-type a-SiC:H is made gradual by inserting a buffer layer. A few-nanometer-thick nanocrystalline silicon buffer layer between the AZO and a-SiC:H enhances the FF from 67% to 73% and the efficiency from 7.30% to 8.18%. Further improvements in the solar cell performance are expected through optimization of cell structures and doping levels.
منابع مشابه
Absence of carrier recombination associated with the defect pool model in intrinsic amorphous silicon layers: Evidence from current–voltage characteristics on p–i–n and n–i–p solar cells
Forward bias current–voltage characteristics (JD – V) were studied for both p – i – n ~superstrate! and n – i – p ~substrate! (a-SiC:H p)/(a-Si:H i) solar-cell structures having different p/i interface layers and different thickness i-layers. Contributions of the p/i interfaces to the JD – V characteristics were separated, and the dependence on the thickness of the i-layers was established. Equ...
متن کاملQuantitative Correlation of High Quality a-Si:H p-i-n Solar Cell Characteristics with Properties of the Bulk and p/i Interface Region
Studies have been carried out on high quality hydrogenated amorphous silicon (a-Si:H) p-i-n solar cells with protocrystalline i-layers to establish the nature of p/i interfaces and to quantify their contributions to various solar cell characteristics. The p-a-SiC:H:B/i-a-Si:H/n-μcSi:H:P cell structures used had the a-Si:H i-layers deposited from hydrogen diluted silane with R≡[H2]/[SiH4]=10. Th...
متن کاملThe role of oxide interlayers in back reflector configurations for amorphous silicon solar cells
Thin oxide interlayers are commonly added to the back reflector of thin-film silicon solar cells to increase their current. To gain more insight in the enhancement mechanism, we tested different back reflector designs consisting of aluminium-doped zinc oxide (ZnO:Al) and/or hydrogenated silicon oxide (SiOx:H) interlayers with different metals (silver, aluminium, and chromium) in standard p-i-n ...
متن کاملGROWTH OF THIN <p> μc-Si:H ON INTRINSIC a-Si:H FOR <nip> SOLAR CELLS APPLICATION
The μc-SiC:H / a-Si:H junction can be considered to be a sub-system of a n/i/p solar cell. Optimised performance of this junction can be assumed to be a key feature for obtaining high efficiency solar cells. In this paper the authors present results on the conductivity of boron doped microcrystalline hydrogenated silicon ( μc-Si:H) thin films deposited on amorphous substrates (e.g. g...
متن کاملEx situ hydrogen passivation effect of visible p-i-n type thin-film light-emitting diode characteristics
The effect of ex situ hydrogen passivation process on the performance of visible hydrogenated amorphous silicon carbide ~a-SiC:H!-based p-i-n type thin-film light-emitting diodes has been investigated. An ex situ hydrogen passivation process dramatically improved the device performance; that is, the threshold voltage decreased by about 5 V, the electroluminescence ~EL! intensity increased by a ...
متن کامل