2015
DOI: 10.1149/2.0211602jss
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A Study on the Long-Term Degradation of Crystalline Silicon Solar Cells Metallized with Cu Electroplating

Abstract: While using Cu electroplating to metallize silicon cells is of great interest, the long term reliability of such cells have not been well understood. In this paper silicon solar cells metallized with electroplated Cu were thermally stressed. The cell performance was characterized in conjunction with microscopic structure analysis to understand the long-term degradation mechanism and the effect of each different metal layer. The Ni silicide layer had little impact on the performance degradation at 200 • C. Incr… Show more

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Cited by 8 publications
(2 citation statements)
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“…Currently, for Cu‐plated contacts, less is known. There are a number of studies that utilize a 175° C–275° C thermal stress test where the Cu‐contacts caused cell degradation, but these failures were on unencapsulated cells, where the mechanism is assumed to be thermally activated diffusion of Cu through the barrier and seed layers and into the c‐Si 40‐43 . Cu diffusion to the c‐Si results in degradation of pFF, and there is evidence that diffusing Cu forms recombination‐active or shunting precipitates or silicides in the space‐charge region of the emitter 44,45 .…”
Section: Resultsmentioning
confidence: 99%
“…Currently, for Cu‐plated contacts, less is known. There are a number of studies that utilize a 175° C–275° C thermal stress test where the Cu‐contacts caused cell degradation, but these failures were on unencapsulated cells, where the mechanism is assumed to be thermally activated diffusion of Cu through the barrier and seed layers and into the c‐Si 40‐43 . Cu diffusion to the c‐Si results in degradation of pFF, and there is evidence that diffusing Cu forms recombination‐active or shunting precipitates or silicides in the space‐charge region of the emitter 44,45 .…”
Section: Resultsmentioning
confidence: 99%
“…Detailed studies were carried out on the thermal degradation of different cells up to a few years and the results will be published separately. 46 While the degradation mechanism will be discussed in detail there, the improvement in the thermal stability of solar cells with the ternary silicide is believed to relate to the higher temperature needed for further silicidation.…”
Section: Resultsmentioning
confidence: 99%