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| Hauptseite > Publikationsdatenbank > Comprehensive study of microcrystalline silicon solar cells deposited at high rate using 13.56 MHz plasma-enhanced chemical vapor deposition |
| Hauptseite > Publikationsdatenbank > Comprehensive study of microcrystalline silicon solar cells deposited at high rate using 13.56 MHz plasma-enhanced chemical vapor deposition |
| Journal Article | PreJuSER-23919 |
; ; ; ;
2002
Inst.
New York, NY
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Please use a persistent id in citations: doi:10.1116/1.1450585
Abstract: In this article we present a comprehensive study of microcrystalline silicon (PC-Si:H) p-i-n solar cells prepared by using plasma-enhanced chemical vapor deposition (PECVD) at 13.56 MHz excitation frequency. In the first step the cell development was performed in a small area PECVD reactor showing the relationship between the deposition process parameters and the resulting solar cell performance. Subsequent up-scaling to a substrate area of 30 X 30 cm confirmed the scalability of optimized deposition parameters to large area reactors. We investigated the deposition regime of high rf power P (rf) (0.25-0.7 W/cm(2)) and high deposition pressure P (dep) (1 - 11 Torr) for the muc-Si:H i layer. Furthermore, the influence of silane concentration and deposition temperature was studied. A transition between amorphous and microcrystalline growth could be achieved by a variation of either deposition pressure, plasma power, or silane concentration. The best microcrystalline silicon solar cells were prepared close to the transition to amorphous growth. A high deposition pressure was a prerequisite for obtaining, high quality material at a high growth rate. The best solar cell efficiencies achieved so far are 8.1% and 6.6% at i-layer growth rates of 5 and 10 Angstrom/s, respectively, for muc-Si:H single junction cells. Applied in a-Si:H/muc-Si:H tandem cells a stabilized efficiency of 10.0% was achieved. (C) 2002 American Vacuum Society.
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