Modelling the Annealing of Poly-Si/SiOx/c-Si Junctions

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Nils Folchert
  • Stefan Bordihn
  • Robby Peibst
  • Rolf Brendel

Externe Organisationen

  • Institut für Solarenergieforschung GmbH (ISFH)
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Details

OriginalspracheEnglisch
Titel des SammelwerksSiliconPV 2021 - 11th International Conference on Crystalline Silicon Photovoltaics
Herausgeber/-innenRolf Brendel, Christophe Ballif, Sebastien Dubois, Stefan Glunz, Giso Hahn, Jef Poortmans, Pierre Verlinden, Arthur Weeber
ISBN (elektronisch)9780735443624
PublikationsstatusVeröffentlicht - 24 Aug. 2022
Veranstaltung11th International Conference on Crystalline Silicon Photovoltaics, SiliconPV 2021 - Hamelin, Virtual, Deutschland
Dauer: 19 Apr. 202123 Apr. 2021

Publikationsreihe

NameAIP Conference Proceedings
Band2487
ISSN (Print)0094-243X
ISSN (elektronisch)1551-7616

Abstract

We use the MarcoPOLO model for the calculation of recombination and contact resistances of poly-Si-based junctions (such as POLO or TOPCon) to quantify the density of states Dit,cSi at the SiOx/c-Si interface of n+/n-type poly-Si based junctions during annealing. We compare the calculations to measurements of the recombination parameter, contact resistance and temperature-dependent contact resistance measurements and describe these measurements with the same set of parameters. We find that a constant Dit,cSi can explain the change of the recombination parameter J0 with increasing annealing temperature. The MarcoPOLO model allows the structural analysis and hence paths for the optimization of poly-Si junctions by e.g. a shallow diffusion below the interfacial oxide.

ASJC Scopus Sachgebiete

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Modelling the Annealing of Poly-Si/SiOx/c-Si Junctions. / Folchert, Nils; Bordihn, Stefan; Peibst, Robby et al.
SiliconPV 2021 - 11th International Conference on Crystalline Silicon Photovoltaics. Hrsg. / Rolf Brendel; Christophe Ballif; Sebastien Dubois; Stefan Glunz; Giso Hahn; Jef Poortmans; Pierre Verlinden; Arthur Weeber. 2022. 020006 (AIP Conference Proceedings; Band 2487).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Folchert, N, Bordihn, S, Peibst, R & Brendel, R 2022, Modelling the Annealing of Poly-Si/SiOx/c-Si Junctions. in R Brendel, C Ballif, S Dubois, S Glunz, G Hahn, J Poortmans, P Verlinden & A Weeber (Hrsg.), SiliconPV 2021 - 11th International Conference on Crystalline Silicon Photovoltaics., 020006, AIP Conference Proceedings, Bd. 2487, 11th International Conference on Crystalline Silicon Photovoltaics, SiliconPV 2021, Hamelin, Virtual, Deutschland, 19 Apr. 2021. https://doi.org/10.1063/5.0089597
Folchert, N., Bordihn, S., Peibst, R., & Brendel, R. (2022). Modelling the Annealing of Poly-Si/SiOx/c-Si Junctions. In R. Brendel, C. Ballif, S. Dubois, S. Glunz, G. Hahn, J. Poortmans, P. Verlinden, & A. Weeber (Hrsg.), SiliconPV 2021 - 11th International Conference on Crystalline Silicon Photovoltaics Artikel 020006 (AIP Conference Proceedings; Band 2487). https://doi.org/10.1063/5.0089597
Folchert N, Bordihn S, Peibst R, Brendel R. Modelling the Annealing of Poly-Si/SiOx/c-Si Junctions. in Brendel R, Ballif C, Dubois S, Glunz S, Hahn G, Poortmans J, Verlinden P, Weeber A, Hrsg., SiliconPV 2021 - 11th International Conference on Crystalline Silicon Photovoltaics. 2022. 020006. (AIP Conference Proceedings). doi: 10.1063/5.0089597
Folchert, Nils ; Bordihn, Stefan ; Peibst, Robby et al. / Modelling the Annealing of Poly-Si/SiOx/c-Si Junctions. SiliconPV 2021 - 11th International Conference on Crystalline Silicon Photovoltaics. Hrsg. / Rolf Brendel ; Christophe Ballif ; Sebastien Dubois ; Stefan Glunz ; Giso Hahn ; Jef Poortmans ; Pierre Verlinden ; Arthur Weeber. 2022. (AIP Conference Proceedings).
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abstract = "We use the MarcoPOLO model for the calculation of recombination and contact resistances of poly-Si-based junctions (such as POLO or TOPCon) to quantify the density of states Dit,cSi at the SiOx/c-Si interface of n+/n-type poly-Si based junctions during annealing. We compare the calculations to measurements of the recombination parameter, contact resistance and temperature-dependent contact resistance measurements and describe these measurements with the same set of parameters. We find that a constant Dit,cSi can explain the change of the recombination parameter J0 with increasing annealing temperature. The MarcoPOLO model allows the structural analysis and hence paths for the optimization of poly-Si junctions by e.g. a shallow diffusion below the interfacial oxide.",
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AU - Folchert, Nils

AU - Bordihn, Stefan

AU - Peibst, Robby

AU - Brendel, Rolf

N1 - Funding Information: This work was supported by the Ministry for Science and Culture of lower Saxony (project vOx), by the European Union's Horizon 2020 Programme for research, technological development and demonstration Grant Agreements no. 727529 (project DISC) and by the Federal Ministry for Economic Affairs and Energy under grant no 0324171C (project Nextstep).

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N2 - We use the MarcoPOLO model for the calculation of recombination and contact resistances of poly-Si-based junctions (such as POLO or TOPCon) to quantify the density of states Dit,cSi at the SiOx/c-Si interface of n+/n-type poly-Si based junctions during annealing. We compare the calculations to measurements of the recombination parameter, contact resistance and temperature-dependent contact resistance measurements and describe these measurements with the same set of parameters. We find that a constant Dit,cSi can explain the change of the recombination parameter J0 with increasing annealing temperature. The MarcoPOLO model allows the structural analysis and hence paths for the optimization of poly-Si junctions by e.g. a shallow diffusion below the interfacial oxide.

AB - We use the MarcoPOLO model for the calculation of recombination and contact resistances of poly-Si-based junctions (such as POLO or TOPCon) to quantify the density of states Dit,cSi at the SiOx/c-Si interface of n+/n-type poly-Si based junctions during annealing. We compare the calculations to measurements of the recombination parameter, contact resistance and temperature-dependent contact resistance measurements and describe these measurements with the same set of parameters. We find that a constant Dit,cSi can explain the change of the recombination parameter J0 with increasing annealing temperature. The MarcoPOLO model allows the structural analysis and hence paths for the optimization of poly-Si junctions by e.g. a shallow diffusion below the interfacial oxide.

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