Controlling P and B diffusion during polysilicon formation

Machteld Lamers; Paula Bronsveld; Ji Liu; Arthur Weeber

doi:10.1063/1.5049274

Controlling P and B diffusion during polysilicon formation

Machteld Lamers^*, Paula Bronsveld, Ji Liu, Arthur Weeber

^*Corresponding author for this work

Photovoltaic Materials and Devices

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

1 Citation (Scopus)

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Abstract

High quality passivating contacts can be realized by using the combination of a thin interfacial oxide (SiO_x) and doped polysilicon (polySi). Recombination losses are minimized by providing very good passivation between the thin hydrogenated oxide and the cSi, a high field effect by the highly doped polySi [1-2], combined with the low level penetration of dopants in the wafer [2-3]. To realize this low level in-diffusion of dopants, several interacting options are evaluated in this work: the quality of the thin oxide layer (growth method), combined with a diffusion blocking method (nitridation), doping concentration levels in the polySi and temperature of diffusion. It is shown that for Phosphorus (P)-doped polySi, in-diffusion can be reduced by adding an i-layer in between the oxide and the highly doped polySi, lowering the overall doping level in the system slightly. For Boron (B)-doped polySi, in-diffusion can be blocked by nitridation of the SiO2 layer.

Original language	English
Title of host publication	SiliconPV 2018, the 8th International Conference on Crystalline Silicon Photovoltaics
Editors	Rolf Brendel, Jef Poortmans, Arthur Weeber, Giso Hahn, Christophe Ballif, Stefan Glunz, Pierre-Jean Ribeyron
Publisher	American Institute of Physics
Number of pages	6
Volume	1999
ISBN (Print)	978-073541715-1
DOIs	https://doi.org/10.1063/1.5049274
Publication status	Published - 2018
Event	SiliconPV 2018: The 8th International Conference on Crystalline Silicon Photovoltaics - Lausanne, Switzerland Duration: 19 Mar 2018 → 21 Mar 2018

Conference

Conference	SiliconPV 2018: The 8th International Conference on Crystalline Silicon Photovoltaics
Country/Territory	Switzerland
City	Lausanne
Period	19/03/18 → 21/03/18

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10.1063/1.5049274

1.5049274Final published version, 1.03 MB

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Lamers, M., Bronsveld, P., Liu, J., & Weeber, A. (2018). Controlling P and B diffusion during polysilicon formation. In R. Brendel, J. Poortmans, A. Weeber, G. Hahn, C. Ballif, S. Glunz, & P.-J. Ribeyron (Eds.), SiliconPV 2018, the 8th International Conference on Crystalline Silicon Photovoltaics (Vol. 1999). Article 040011 American Institute of Physics. https://doi.org/10.1063/1.5049274

Lamers, Machteld ; Bronsveld, Paula ; Liu, Ji et al. / Controlling P and B diffusion during polysilicon formation. SiliconPV 2018, the 8th International Conference on Crystalline Silicon Photovoltaics. editor / Rolf Brendel ; Jef Poortmans ; Arthur Weeber ; Giso Hahn ; Christophe Ballif ; Stefan Glunz ; Pierre-Jean Ribeyron. Vol. 1999 American Institute of Physics, 2018.

@inproceedings{f54e922abc7e4af08ccdad985b5595c7,

title = "Controlling P and B diffusion during polysilicon formation",

abstract = "High quality passivating contacts can be realized by using the combination of a thin interfacial oxide (SiOx) and doped polysilicon (polySi). Recombination losses are minimized by providing very good passivation between the thin hydrogenated oxide and the cSi, a high field effect by the highly doped polySi [1-2], combined with the low level penetration of dopants in the wafer [2-3]. To realize this low level in-diffusion of dopants, several interacting options are evaluated in this work: the quality of the thin oxide layer (growth method), combined with a diffusion blocking method (nitridation), doping concentration levels in the polySi and temperature of diffusion. It is shown that for Phosphorus (P)-doped polySi, in-diffusion can be reduced by adding an i-layer in between the oxide and the highly doped polySi, lowering the overall doping level in the system slightly. For Boron (B)-doped polySi, in-diffusion can be blocked by nitridation of the SiO2 layer.",

author = "Machteld Lamers and Paula Bronsveld and Ji Liu and Arthur Weeber",

year = "2018",

doi = "10.1063/1.5049274",

language = "English",

isbn = "978-073541715-1",

volume = "1999",

editor = "Rolf Brendel and Jef Poortmans and Arthur Weeber and Giso Hahn and Christophe Ballif and Stefan Glunz and Pierre-Jean Ribeyron",

booktitle = "SiliconPV 2018, the 8th International Conference on Crystalline Silicon Photovoltaics",

publisher = "American Institute of Physics",

address = "United States",

note = "SiliconPV 2018: The 8th International Conference on Crystalline Silicon Photovoltaics ; Conference date: 19-03-2018 Through 21-03-2018",

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Lamers, M, Bronsveld, P, Liu, J & Weeber, A 2018, Controlling P and B diffusion during polysilicon formation. in R Brendel, J Poortmans, A Weeber, G Hahn, C Ballif, S Glunz & P-J Ribeyron (eds), SiliconPV 2018, the 8th International Conference on Crystalline Silicon Photovoltaics. vol. 1999, 040011, American Institute of Physics, SiliconPV 2018: The 8th International Conference on Crystalline Silicon Photovoltaics, Lausanne, Switzerland, 19/03/18. https://doi.org/10.1063/1.5049274

Controlling P and B diffusion during polysilicon formation. / Lamers, Machteld; Bronsveld, Paula; Liu, Ji et al.
SiliconPV 2018, the 8th International Conference on Crystalline Silicon Photovoltaics. ed. / Rolf Brendel; Jef Poortmans; Arthur Weeber; Giso Hahn; Christophe Ballif; Stefan Glunz; Pierre-Jean Ribeyron. Vol. 1999 American Institute of Physics, 2018. 040011.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - Controlling P and B diffusion during polysilicon formation

AU - Lamers, Machteld

AU - Bronsveld, Paula

AU - Liu, Ji

AU - Weeber, Arthur

PY - 2018

Y1 - 2018

N2 - High quality passivating contacts can be realized by using the combination of a thin interfacial oxide (SiOx) and doped polysilicon (polySi). Recombination losses are minimized by providing very good passivation between the thin hydrogenated oxide and the cSi, a high field effect by the highly doped polySi [1-2], combined with the low level penetration of dopants in the wafer [2-3]. To realize this low level in-diffusion of dopants, several interacting options are evaluated in this work: the quality of the thin oxide layer (growth method), combined with a diffusion blocking method (nitridation), doping concentration levels in the polySi and temperature of diffusion. It is shown that for Phosphorus (P)-doped polySi, in-diffusion can be reduced by adding an i-layer in between the oxide and the highly doped polySi, lowering the overall doping level in the system slightly. For Boron (B)-doped polySi, in-diffusion can be blocked by nitridation of the SiO2 layer.

AB - High quality passivating contacts can be realized by using the combination of a thin interfacial oxide (SiOx) and doped polysilicon (polySi). Recombination losses are minimized by providing very good passivation between the thin hydrogenated oxide and the cSi, a high field effect by the highly doped polySi [1-2], combined with the low level penetration of dopants in the wafer [2-3]. To realize this low level in-diffusion of dopants, several interacting options are evaluated in this work: the quality of the thin oxide layer (growth method), combined with a diffusion blocking method (nitridation), doping concentration levels in the polySi and temperature of diffusion. It is shown that for Phosphorus (P)-doped polySi, in-diffusion can be reduced by adding an i-layer in between the oxide and the highly doped polySi, lowering the overall doping level in the system slightly. For Boron (B)-doped polySi, in-diffusion can be blocked by nitridation of the SiO2 layer.

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U2 - 10.1063/1.5049274

DO - 10.1063/1.5049274

M3 - Conference contribution

AN - SCOPUS:85051921616

SN - 978-073541715-1

VL - 1999

BT - SiliconPV 2018, the 8th International Conference on Crystalline Silicon Photovoltaics

A2 - Brendel, Rolf

A2 - Poortmans, Jef

A2 - Weeber, Arthur

A2 - Hahn, Giso

A2 - Ballif, Christophe

A2 - Glunz, Stefan

A2 - Ribeyron, Pierre-Jean

PB - American Institute of Physics

T2 - SiliconPV 2018: The 8th International Conference on Crystalline Silicon Photovoltaics

Y2 - 19 March 2018 through 21 March 2018

ER -

Controlling P and B diffusion during polysilicon formation

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