2020
DOI: 10.1002/solr.202000435
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A 22.3% Efficient p‐Type Back Junction Solar Cell with an Al‐Printed Front‐Side Grid and a Passivating n+‐Type Polysilicon on Oxide Contact at the Rear Side

Abstract: The fabrication of a silicon solar cell on 6 in. pseudo‐square p‐type Czochralski grown silicon wafers featuring poly‐Si‐based passivating contacts for electrons at the cell rear side and screen‐printed aluminum fingers at the front side is demonstrated. The undiffused front surface is passivated with an Al2O3/SiNx stack, and the rear surface is covered with a thin oxide/n+‐poly‐Si/Al2O3/SiNx layer system, contacted by screen‐printed silver fingers. A loss analysis shows that the recombination losses at the me… Show more

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Cited by 14 publications
(17 citation statements)
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“…Second, we improved the passivation quality of the POLO contacts from previously 9 to now 3.5 fA cm À2 as determined on test structures. When incorporating both these changes in our simulation model reported in our previous work, [14] then the simulation predicts a V oc improvement of 5.3 mV, indicating that the V oc improvement of 22 mV reported here is mainly due to less damage to the POLO contacts underneath the screen-printed metal contacts. The median J sc values differ by 0.1 mA cm À2 from the value of the previous cell batch, but the difference is within the uncertainty range.…”
supporting
confidence: 59%
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“…Second, we improved the passivation quality of the POLO contacts from previously 9 to now 3.5 fA cm À2 as determined on test structures. When incorporating both these changes in our simulation model reported in our previous work, [14] then the simulation predicts a V oc improvement of 5.3 mV, indicating that the V oc improvement of 22 mV reported here is mainly due to less damage to the POLO contacts underneath the screen-printed metal contacts. The median J sc values differ by 0.1 mA cm À2 from the value of the previous cell batch, but the difference is within the uncertainty range.…”
supporting
confidence: 59%
“…The impact on cell performance is investigated by fabricating POLO back junction (BJ) solar cells with p-type M2-sized Czochralski-grown silicon wafers. [12][13][14] As shown in Figure 1, the POLO BJ cells have screen-printed aluminum fingers at the front side that form local p þ regions. The undiffused, textured front side is passivated with Al 2 O 3 /SiN x stack.…”
mentioning
confidence: 99%
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“…We actually started experimental work in this direction. For POLO BJ, we achieved an independently confirmed efficiency of 22.3 % within a (on our scale) very short development time of 1/2 year 79 , 80 . For POLO IBC, we achieved so far an open-circuit voltage of 711 mV and an efficiency of 22.6% on small area 81 , 82 .…”
Section: Roadmap For Future Cell Developmentmentioning
confidence: 60%