Anodic oxidations: Excellent process durability and surface passivation for high efficiency silicon solar cells
Date
2019
Authors
Grant, N E
Kho, Teng Choon
Fong, Kean Chern
Franklin, Evan
McIntosh, Keith
Stocks, Matthew
Wan, Yimao
Wang, Er-Chien
Zin, Ngwe
Murphy, John
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
We investigate the versatility of anodically grown silicon dioxide (SiO2) films in the context of process durability and exceptional surface passivation for high efficiency (>23%) silicon solar cell architectures. We show that a room temperature anodic oxidation can achieve a thickness of ~70 nm within ~30 min, comparable to the growth rate of a thermal oxide at 1000 C. We demonstrate that anodic SiO2 films can mask against wet chemical silicon etching and high temperature phosphorus diffusions, thereby permitting a low thermal budget method to form patterned structures. We investigate the saturation current density J0 of anodic SiO2/silicon nitride stacks on phosphorus diffused and undiffused silicon and show that a J0 of <10 fA cm-2 can be achieved in both cases. Finally, to showcase the anodic SiO2 films on a device level, we employed the anodic SiO2/silicon nitride stack to passivate the rear surface of an interdigitated back contact solar cell, achieving an efficiency of 23.8%.
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Keywords
Anodic oxidation, Silicon, Silicon dioxide, Solar cell, Surface passivation
Citation
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Source
Solar Energy Materials and Solar Cells
Type
Journal article
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Access Statement
Open Access
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Creative Commons Attribution licence
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