Controlling Structural Evolution by VHF Power Profiling Technique for High-efficiency Microcrystalline Silicon Solar Cells at High Deposition Rate

Abstract

High rate deposition of hydrogenated microcrystalline silicon (µc-Si:H) films and solar cells were prepared by very high frequency plasma enhanced chemical vapor deposition (VHF-PECVD) process in a high power and high pressure regime. The experiment results demonstrate that in high-rate deposited µc-Si:H films, the structural evolution is much more dramatic than that in low-rate deposited µc-Si:H films. A novel VHF power profiling technique, which was designed by dynamically decreasing the VHF power step by step during the deposition of µc-Si:H intrinsic layers, has been developed to control the structural evolution along the growth direction. Another advantage of this VHF power profiling technique is the reduced ion bombardments on growth surface because of decreasing the VHF power. Using this method, a significant improvement in the solar cell performance has been achieved. A high conversion efficiency of 9.36% (V oc=542mV, J sc=25.4mA/cm2 FF=68%) was obtained for a single junction µc-Si:H p-i-n solar cell with i-layer deposited at deposition rate over 10 ?/s.

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Correspondence to Guofu Hou.

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Hou, G., Han, X., Wei, C. et al. Controlling Structural Evolution by VHF Power Profiling Technique for High-efficiency Microcrystalline Silicon Solar Cells at High Deposition Rate. MRS Online Proceedings Library 1153, 721 (2008). https://doi.org/10.1557/PROC-1153-A07-21

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