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Effect of forming gas annealing on hydrogen content and surface morphology of titanium oxide coated crystalline silicon heterocontacts

Nakagawa, Yuta ; Gotoh, Kazuhiro ; Wilde, Markus ; [et al.]

American Vacuum Society ; 2020

In: Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films Vol. 38, No. 2 ( 2020-03-01)

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In: Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, American Vacuum Society, Vol. 38, No. 2 ( 2020-03-01)

Abstract: Crystalline silicon (c-Si) heterojunction solar cells using carrier-selective contacts have drawn considerable attention due to their high power conversion efficiency with a simple fabrication process. Titanium oxide (TiOx) is one of the most promising materials that can provide excellent surface passivation as well as carrier-selective transport. In this study, the authors fabricate the TiOx/SiOx/c-Si heterocontacts by atomic layer deposition (ALD) and investigate the effect of the forming gas annealing (FGA) on hydrogen content and surface morphology by utilizing nuclear reaction analysis (NRA) and atomic force microscope (AFM) measurements, respectively. The highest effective carrier lifetime (τeff) of 891 μs is realized for TiOx/SiOx/c-Si heterocontacts after FGA at 400 °C for 3 min, indicating that high surface passivation performance is obtained. NRA clarifies that the hydrogen content in the TiOx/SiOx/c-Si heterocontacts decreases with increasing FGA temperature and duration. With increasing FGA temperature and duration, also the surfaces of the TiOx/SiOx/c-Si heterocontacts are roughened, which means enhanced crystallization of the TiOx/SiOx/c-Si heterocontacts. From the NRA and AFM analyses, the authors conclude that there is a trade-off relationship between the hydrogen content in the TiOx/SiOx/c-Si heterocontacts and the crystallization of the TiOx layers.

Type of Medium: Online Resource

ISSN: 0734-2101 , 1520-8559

URL: Article

DOI: 10.1116/1.5134719

RVK:

UA 4921

Language: English

Publisher: American Vacuum Society

Publication Date: 2020

detail.hit.zdb_id: 1475424-1

detail.hit.zdb_id: 797704-9

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Effect of hydrogen plasma treatment on the passivation performance of TiO x on crystalline silicon prepared by atomic layer deposition

Miyagawa, Shinsuke ; Gotoh, Kazuhiro ; Ogura, Shohei ; [et al.]

American Vacuum Society ; 2020

In: Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films Vol. 38, No. 2 ( 2020-03-01)

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In: Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, American Vacuum Society, Vol. 38, No. 2 ( 2020-03-01)

Abstract: The authors report on the effect of hydrogen plasma treatment (HPT) on the passivation performance of titanium oxide (TiOx) on crystalline silicon (c-Si) fabricated by atomic layer deposition. Recently, TiOx has gathered attention as an electron-selective contact material for silicon heterojunction (SHJ) solar cells due to its preferable work function and band lineup. Moreover, TiOx has excellent light transmission properties due to its large bandgap energy. In order to improve the power conversion efficiency of SHJ solar cells with TiOx, it is necessary to enhance the passivation performance. The effective carrier lifetime representing the passivation performance is enhanced by HPT and amounts to 407.2 μs after HPT at 200 °C for 1 min. This value is twice as high as after forming gas annealing, which is the standard method to enhance the passivation performance of TiOx/c-Si heterostructures. Nuclear reaction analysis clarifies that the hydrogen concentration (CH) at the TiOx/c-Si interface of the HPT-processed sample is higher than that of an as-deposited sample and that the peak position of the CH distribution is shifted closer to the TiOx/c-Si heterointerface after HPT. Moreover, thermal desorption spectroscopy shows that Si–H and Si–H2 hydrogen bonds increase with HPT. These results indicate that the atomic hydrogen produced by the hydrogen plasma diffuses toward the TiOx/c-Si interface and terminate the local dangling bonds, which is responsible for the improved passivation performance.

Type of Medium: Online Resource

ISSN: 0734-2101 , 1520-8559

URL: Article

DOI: 10.1116/1.5134720

RVK:

UA 4921

Language: English

Publisher: American Vacuum Society

Publication Date: 2020

detail.hit.zdb_id: 1475424-1

detail.hit.zdb_id: 797704-9

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