Plasma-silicone interaction during a-Si:H deposition on solar cell wafers bonded to glass

Stefano Nicola Granata; Caroline Boulord; Jonathan Govaerts; Twan Bearda; Guy Beaucarne; Deana Soogund; Raquel Vaquer Pérez; Frederic Dross; Yaser Abdulraheem; Jef Poortmans; Robert Mertens

doi:10.1016/j.solmat.2014.01.035

Plasma-silicone interaction during a-Si:H deposition on solar cell wafers bonded to glass

Stefano Nicola Granata, Caroline Boulord, Jonathan Govaerts, Twan Bearda, Guy Beaucarne, Deana Soogund, Raquel Vaquer Pérez, Frederic Dross, Yaser Abdulraheem, Jef Poortmans, Robert Mertens

Kuwait University

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

A scenario for future silicon photovoltaics is to use wafer-based solar cells with a thickness below 100 μm. A way to realize this scenario is the merging of cell and module processing, with thin wafers processed while attached to the superstrate glass. One of the challenges for this type of processing is the achievement of high performing surface passivation, i.e., with surface recombination velocities below 10 cm/s. In this paper, a detailed explanation for lifetime degradation on wafers bonded to glass by means of silicone is proposed. The degradation is due to cyclic silicone molecules outgassing during a-Si:H deposition from the adhesive used to bond the wafers. The cyclic molecules are incorporated in the a-Si:H layer and modify the amorphous silicon network. By the application of specific outgassing conditions before a-Si:H deposition, a significant amount of cyclic molecules is removed from the adhesive. Non-degraded a-Si:H layers and surface passivation comparable to standalone wafers are obtained, as shown with measures of lifetime and solar cell open circuit voltage.

Original language	English
Pages (from-to)	48-54
Number of pages	7
Journal	Solar Energy Materials and Solar Cells
Volume	124
DOIs	https://doi.org/10.1016/j.solmat.2014.01.035
State	Published - May 2014

Keywords

Amorphous silicon
FTIR
Lifetime
Silicone
Surface passivation
Wafer bonding

Funding Agency

Kuwait Foundation for the Advancement of Sciences

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.solmat.2014.01.035

Cite this

@article{8913d9a641054295ac7e3feed48a2974,

title = "Plasma-silicone interaction during a-Si:H deposition on solar cell wafers bonded to glass",

abstract = "A scenario for future silicon photovoltaics is to use wafer-based solar cells with a thickness below 100 μm. A way to realize this scenario is the merging of cell and module processing, with thin wafers processed while attached to the superstrate glass. One of the challenges for this type of processing is the achievement of high performing surface passivation, i.e., with surface recombination velocities below 10 cm/s. In this paper, a detailed explanation for lifetime degradation on wafers bonded to glass by means of silicone is proposed. The degradation is due to cyclic silicone molecules outgassing during a-Si:H deposition from the adhesive used to bond the wafers. The cyclic molecules are incorporated in the a-Si:H layer and modify the amorphous silicon network. By the application of specific outgassing conditions before a-Si:H deposition, a significant amount of cyclic molecules is removed from the adhesive. Non-degraded a-Si:H layers and surface passivation comparable to standalone wafers are obtained, as shown with measures of lifetime and solar cell open circuit voltage.",

keywords = "Amorphous silicon, FTIR, Lifetime, Silicone, Surface passivation, Wafer bonding",

author = "Granata, {Stefano Nicola} and Caroline Boulord and Jonathan Govaerts and Twan Bearda and Guy Beaucarne and Deana Soogund and P{\'e}rez, {Raquel Vaquer} and Frederic Dross and Yaser Abdulraheem and Jef Poortmans and Robert Mertens",

note = "Funding Information: The authors gratefully acknowledge the support of the European Commission through the project SUGAR (Reference number 256752 ) and of IMEC׳s Industrial Affiliation Program (IIAP-PV) and KFAS funded Project number ( 2012-150-801 ).",

year = "2014",

month = may,

doi = "10.1016/j.solmat.2014.01.035",

language = "English",

volume = "124",

pages = "48--54",

journal = "Solar Energy Materials and Solar Cells",

issn = "0927-0248",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Plasma-silicone interaction during a-Si:H deposition on solar cell wafers bonded to glass

AU - Granata, Stefano Nicola

AU - Boulord, Caroline

AU - Govaerts, Jonathan

AU - Bearda, Twan

AU - Beaucarne, Guy

AU - Soogund, Deana

AU - Pérez, Raquel Vaquer

AU - Dross, Frederic

AU - Abdulraheem, Yaser

AU - Poortmans, Jef

AU - Mertens, Robert

N1 - Funding Information: The authors gratefully acknowledge the support of the European Commission through the project SUGAR (Reference number 256752 ) and of IMEC׳s Industrial Affiliation Program (IIAP-PV) and KFAS funded Project number ( 2012-150-801 ).

PY - 2014/5

Y1 - 2014/5

N2 - A scenario for future silicon photovoltaics is to use wafer-based solar cells with a thickness below 100 μm. A way to realize this scenario is the merging of cell and module processing, with thin wafers processed while attached to the superstrate glass. One of the challenges for this type of processing is the achievement of high performing surface passivation, i.e., with surface recombination velocities below 10 cm/s. In this paper, a detailed explanation for lifetime degradation on wafers bonded to glass by means of silicone is proposed. The degradation is due to cyclic silicone molecules outgassing during a-Si:H deposition from the adhesive used to bond the wafers. The cyclic molecules are incorporated in the a-Si:H layer and modify the amorphous silicon network. By the application of specific outgassing conditions before a-Si:H deposition, a significant amount of cyclic molecules is removed from the adhesive. Non-degraded a-Si:H layers and surface passivation comparable to standalone wafers are obtained, as shown with measures of lifetime and solar cell open circuit voltage.

AB - A scenario for future silicon photovoltaics is to use wafer-based solar cells with a thickness below 100 μm. A way to realize this scenario is the merging of cell and module processing, with thin wafers processed while attached to the superstrate glass. One of the challenges for this type of processing is the achievement of high performing surface passivation, i.e., with surface recombination velocities below 10 cm/s. In this paper, a detailed explanation for lifetime degradation on wafers bonded to glass by means of silicone is proposed. The degradation is due to cyclic silicone molecules outgassing during a-Si:H deposition from the adhesive used to bond the wafers. The cyclic molecules are incorporated in the a-Si:H layer and modify the amorphous silicon network. By the application of specific outgassing conditions before a-Si:H deposition, a significant amount of cyclic molecules is removed from the adhesive. Non-degraded a-Si:H layers and surface passivation comparable to standalone wafers are obtained, as shown with measures of lifetime and solar cell open circuit voltage.

KW - Amorphous silicon

KW - FTIR

KW - Lifetime

KW - Silicone

KW - Surface passivation

KW - Wafer bonding

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U2 - 10.1016/j.solmat.2014.01.035

DO - 10.1016/j.solmat.2014.01.035

M3 - Article

AN - SCOPUS:84894044679

SN - 0927-0248

VL - 124

SP - 48

EP - 54

JO - Solar Energy Materials and Solar Cells

JF - Solar Energy Materials and Solar Cells

ER -

Plasma-silicone interaction during a-Si:H deposition on solar cell wafers bonded to glass

Abstract

Keywords

Funding Agency

UN SDGs

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