10 research outputs found
Preventing light-induced degradation in multicrystalline silicon
Get PDFMulticrystalline silicon (mc-Si) is currently dominating the silicon solar cell market due to low ingot costs, but its efficiency is limited by transition metals, extended defects, and light-induced degradation (LID). LID is traditionally associated with a boron-oxygen complex, but the origin of the degradation in the top of the commercial mc-Si brick is revealed to be interstitial copper. We demonstrate that both a large negative corona charge and an aluminum oxide thin film with a built-in negative charge decrease the interstitial copper concentration in the bulk, preventing LID in mc-Si.Peer reviewe
Evolution of the electrochemical interface in high-temperature fuel cells and electrolysers
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Synthesis and characterization of vertically oriented ZnO nanowires grown on c-axis ZnO seed layer by pulsed laser deposition
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Accelerated degradation of yttria stabilized zirconia electrolyte during high-temperature water electrolysis
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