Abstract
This paper describes the use of self-patterning anodic aluminum oxide (AAO) layers to enable localized metal contacts and to achieve passivation for the rear surface of silicon solar cells. There are no commercially available technologies that are capable of patterning localized contacts on silicon solar cells with low cost, high-throughput, and robust processing, especially when closely spaced small-area openings are required. In the approach described, nanoporous AAO layers were formed by anodizing aluminum over intervening dielectrics on textured silicon wafers. When the anodized test structures were fired in a belt furnace, localized contacts formed at peaks and valleys of the alkaline-textured silicon surface. Furthermore, the anodization contributed ∼35 mV increment in the implied Voc of the test structures. Low contact resistivity was demonstrated and the proposed contacting mechanism for this innovative localization suggested that the contact percentage can be controlled by varying the anodization duration and/or the surface morphology.
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This work has been jointly supported by Hanwha Solar America, Suntech Power Co. Ltd and the School of Photovoltaic and Renewable Energy Engineering at the University of New South Wales, Australia.
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Lu, Z., Lu, P.H., Cui, J. et al. Self-patterned localized metal contacts for silicon solar cells. Journal of Materials Research 28, 1984–1994 (2013). https://doi.org/10.1557/jmr.2013.204
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DOI: https://doi.org/10.1557/jmr.2013.204