Effective Hydrogenation of Poly-Si Passivating Contacts by Atomic-Layer-Deposited Nickel Oxide

In recent years, passivating contacts based on SiO 2 /poly-Si have proven to be an enabling technology for Si solar cells. Effective hydrogenation of the interfacial SiO 2 is vital for realizing efficient contacts. Hydrogen-rich dielectrics, such as SiN x and Al 2 O 3 , are commonly employed for hyd...

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Bibliographic Details
Published in:IEEE journal of photovoltaics 2022-11, Vol.12 (6), p.1377-1385
Main Authors: Phung, Nga, van Helvoirt, Cristian, Beyer, Wolfhard, Anker, John, Naber, Ronald C. G., Renes, Marten, Kessels, Wilhelmus M. M., Geerligs, L. J., Creatore, Mariadriana, Macco, Bart
Format: Article
Language:English
Subjects:
Aluminum oxide
Annealing
Atomic layer epitaxy
Elastic analysis
Hydrogen
Hydrogenation
Indium oxides
Metal oxides
Metals
nickel oxide
Nickel oxides
Open circuit voltage
passivating contact
Passivation
Photovoltaic cells
Polysilicon
Secondary ion mass spectrometry
Silicon
Silicon dioxide
silicon solar cells
Solar cells
Stacks
Surface measurement
surface passivation
Surface texture
Zinc oxide
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Summary:In recent years, passivating contacts based on SiO 2 /poly-Si have proven to be an enabling technology for Si solar cells. Effective hydrogenation of the interfacial SiO 2 is vital for realizing efficient contacts. Hydrogen-rich dielectrics, such as SiN x and Al 2 O 3 , are commonly employed for hydrogenation, whereas also recently, n -type conductive oxides, such as In 2 O 3 :Sn and ZnO, have been demonstrated to yield excellent hydrogenation. This study presents the use of a p -type metal oxide, specifically NiO, as a suitable hydrogenation source. The p -type character of NiO makes it an interesting candidate for hydrogenation because of its potential use in selective contacting structures. Herein, we show that NiO, synthesized by atomic layer deposition (ALD), can be used to hydrogenate poly-Si/SiO 2 contacts effectively. Furthermore, we benchmark its hydrogenation performance to the established ALD ZnO/Al 2 O 3 stack and provide insights into the hydrogenation process. On planar surfaces, NiO yields almost as excellent results as ZnO/Al 2 O 3 stacks, whereas it lags behind on more challenging textured surfaces. Interestingly, even though elastic recoil detection analysis reveals that ALD NiO is rich in hydrogen, secondary ion mass spectrometry measurements show that, when NiO is compared to the ZnO/Al 2 O 3 stack, less hydrogen is present at the Si/SiO 2 interface after annealing. This is explained from effusion measurements, which show substantial effusion of hydrogen from NiO around 300 °C. Hence, Al 2 O 3 capping is further employed to prevent hydrogen loss and on textured wafers, the NiO/Al 2 O 3 stacks on poly-Si achieve an implied open-circuit voltage of 728 mV, confirming the excellent hydrogenation from ALD metal oxides.
ISSN:2156-3381
2156-3403
DOI:10.1109/JPHOTOV.2022.3206895