Achieving a high Short Circuit Current Density of 40.9 mA/cm² for Two-Side Contacted Silicon Heterojunction Solar Cells by using SiC-based Transparent Passivating Contacts

Back-Contacted Silicon Heterojunction Solar Cells: Optical-Loss Analysis and Mitigation

Paviet-Salomon, Bertrand
Tomasi, Andrea
Descoeudres, Antoine
Barraud, Loris
Nicolay, Sylvain
Despeisse, Matthieu
De Wolf, Stefaan
Ballif, Christophe

September 2015

We analyze the optical losses that occur in interdigitated back-contacted amorphous/crystalline sili...

Silicon heterojunction solar cells with up to 26.81% efficiency achieved by electrically optimized nanocrystalline-silicon hole contact layers

Lin, H. (author)
Yang, Miao (author)
Ru, Xiaoning (author)
Wang, Genshun (author)
Yin, Shi (author)
Peng, Fuguo (author)
Han, C. (author)
Procel Moya, P.A. (author)
Isabella, O. (author)

January 2023

Silicon heterojunction (SHJ) solar cells have reached high power conversion efficiency owing to thei...

Transparent-conductive-oxide-free front contacts for high-efficiency silicon heterojunction solar cells

Li, Shenghao
Pomaska, Manuel
Qiu, Kaifu
Hong, Ruijiang
Shen, Hui
Finger, Friedhelm
Kirchartz, Thomas
Rau, Uwe
Ding, Kaining
Lambertz, Andreas
Duan, Weiyuan
Bittkau, Karsten
Qiu, Depeng
Yao, Zhirong
Luysberg, Martina
Steuter, Paul
Köhler, Malte

January 2021

In order to compensate the insufficient conductance of heterojunction thin films, transparent conduc...

Optical Optimization Potential of Transparent‐Passivated Contacts in Silicon Solar Cells

Eberst, Alexander
Zamchiy, Alexandr
Rau, Uwe
Ding, Kaining
Qiu, Kaifu
Winkel, Peter
Gebrewold, Habtamu T.
Lambertz, Andreas
Duan, Weiyuan
Li, Shenghao
Bittkau, Karsten
Kirchartz, Thomas

January 2022

Herein, an optical loss analysis of the recently introduced silicon carbide–based transparent passiv...

Development of a Transparent Passivated Contact as a Front Side Contact for Silicon Heterojunction Solar Cells

Köhler, Malte
Zamchiy, Alexandr
Pomaska, Manuel
Lambertz, Andreas
Lentz, Florian
Duan, Weiyuan
Smirnov, Vladimir
Finger, Friedhelm
Rau, Uwe
Ding, Kaining

January 2018

We present a new transparent passivated contact concept utilizing microcrystalline silicon carbide a...

Transparent Passivating Contact for Crystalline Silicon Solar Cells

Köhler, Malte

January 2021

The goal of this work is to develop a transparent, passivating and conductivecontact for the light f...

A silicon carbide-based highly transparent passivating contact for crystalline silicon solar cells approaching efficiencies of 24%

Köhler, Malte (author)
Pomaska, Manuel (author)
Procel Moya, P.A. (author)
Santbergen, R. (author)
Lambertz, Andreas (author)
Duan, Weiyuan (author)
Eberst, Alexander (author)
Luysberg, Martina (author)
Isabella, O. (author)

January 2021

A highly transparent passivating contact (TPC) as front contact for crystalline silicon (c-Si) solar...

Transparent passivating contact for crystalline silicon solar cells

Köhler, Malte

January 2021

The goal of this work is to develop a transparent, passivating and conductive contact for the light ...

Optimization of Transparent Passivating Contact for Crystalline Silicon Solar Cells

Köhler, Malte
Pomaska, Manuel
Ding, Kaining
Zamchiy, Alexandr
Lambertz, Andreas
Duan, Weiyuan
Lentz, Florian
Li, Shenghao
Kirchartz, Thomas
Finger, Friedhelm
Rau, Uwe

January 2020

A highly transparent front contact layer system for crystalline silicon (c-Si) solar cells is invest...

Silicon heterojunction solar cells with effectively transparent front contacts

Saive, Rebecca
Boccard, Mathieu
Saenz, Theresa
Yalamanchili, Sisir
Bukowsky, Colton R.
Jahelka, Phillip
Yu, Zhengshan J.
Shi, Jianwei
Holman, Zachary
Atwater, Harry A.

May 2017

We demonstrate silicon heterojunction solar cells with microscale effectively transparent front cont...

Effectively transparent contacts (ETCs) for solar cells

Saive, Rebecca
Bukowsky, Colton R.
Yalamanchili, Sisir
Boccard, Mathieu
Saenz, Theresa
Borsuk, Aleca M.
Holman, Zachary
Atwater, Harry A.

June 2016

We have developed effectively transparent contacts (ETCs) that allow for increased current in hetero...

Transparent silicon carbide/tunnel SiO2 passivation for c-Si solar cell front side: Enabling Jsc > 42 mA/cm2 and iVoc of 742 mV

Pomaska, Manuel (author)
Köhler, Malte (author)
Procel Moya, P.A. (author)
Zamchiy, Alexandr (author)
Singh, Aryak (author)
Kim, Do Yun (author)
Isabella, O. (author)
Zeman, M. (author)
Li, Shenghao (author)

January 2020

N-type microcrystalline silicon carbide (μc-SiC:H(n)) is a wide bandgap material that is very promis...

Silicon heterojunction solar cells: Analysis and basic understanding

Bivour, Martin

January 2017

Increasing the solar cell efficiency by applying advanced cell architectures is one route for crysta...

Low temperature front surface passivation of interdigitated back contact silicon heterojunction solar cell

Shu, Brent
Das, Ujjwal
Jani, Omkar
Hegedus, Steve
Birkmire, Robert

June 2009

The interdigitated back contact silicon heterojunction (IBC-SHJ) solar cell requires a low temperatu...

Post passivation light trapping back contacts for silicon heterojunction solar cells

Smeets, M.
Bittkau, K.
Lentz, F.
Richter, Alexei
Ding, K.
Carius, R.
Rau, U.
Paetzold, U. W.

January 2016

Light trapping in crystalline silicon (c-Si) solar cells is an essential building block for high eff...

Back-Contacted Silicon Heterojunction Solar Cells: Optical-Loss Analysis and Mitigation

Paviet-Salomon, Bertrand
Tomasi, Andrea
Descoeudres, Antoine
Barraud, Loris
Nicolay, Sylvain
Despeisse, Matthieu
De Wolf, Stefaan
Ballif, Christophe

September 2015

We analyze the optical losses that occur in interdigitated back-contacted amorphous/crystalline sili...

Silicon heterojunction solar cells with up to 26.81% efficiency achieved by electrically optimized nanocrystalline-silicon hole contact layers

Lin, H. (author)
Yang, Miao (author)
Ru, Xiaoning (author)
Wang, Genshun (author)
Yin, Shi (author)
Peng, Fuguo (author)
Han, C. (author)
Procel Moya, P.A. (author)
Isabella, O. (author)

January 2023

Silicon heterojunction (SHJ) solar cells have reached high power conversion efficiency owing to thei...

Transparent-conductive-oxide-free front contacts for high-efficiency silicon heterojunction solar cells

Li, Shenghao
Pomaska, Manuel
Qiu, Kaifu
Hong, Ruijiang
Shen, Hui
Finger, Friedhelm
Kirchartz, Thomas
Rau, Uwe
Ding, Kaining
Lambertz, Andreas
Duan, Weiyuan
Bittkau, Karsten
Qiu, Depeng
Yao, Zhirong
Luysberg, Martina
Steuter, Paul
Köhler, Malte

January 2021

In order to compensate the insufficient conductance of heterojunction thin films, transparent conduc...

Optical Optimization Potential of Transparent‐Passivated Contacts in Silicon Solar Cells

Eberst, Alexander
Zamchiy, Alexandr
Rau, Uwe
Ding, Kaining
Qiu, Kaifu
Winkel, Peter
Gebrewold, Habtamu T.
Lambertz, Andreas
Duan, Weiyuan
Li, Shenghao
Bittkau, Karsten
Kirchartz, Thomas

January 2022

Herein, an optical loss analysis of the recently introduced silicon carbide–based transparent passiv...

Development of a Transparent Passivated Contact as a Front Side Contact for Silicon Heterojunction Solar Cells

Köhler, Malte
Zamchiy, Alexandr
Pomaska, Manuel
Lambertz, Andreas
Lentz, Florian
Duan, Weiyuan
Smirnov, Vladimir
Finger, Friedhelm
Rau, Uwe
Ding, Kaining

January 2018

We present a new transparent passivated contact concept utilizing microcrystalline silicon carbide a...

Transparent Passivating Contact for Crystalline Silicon Solar Cells

Köhler, Malte

January 2021

The goal of this work is to develop a transparent, passivating and conductivecontact for the light f...

A silicon carbide-based highly transparent passivating contact for crystalline silicon solar cells approaching efficiencies of 24%

Köhler, Malte (author)
Pomaska, Manuel (author)
Procel Moya, P.A. (author)
Santbergen, R. (author)
Lambertz, Andreas (author)
Duan, Weiyuan (author)
Eberst, Alexander (author)
Luysberg, Martina (author)
Isabella, O. (author)

January 2021

A highly transparent passivating contact (TPC) as front contact for crystalline silicon (c-Si) solar...

Transparent passivating contact for crystalline silicon solar cells

Köhler, Malte

January 2021

The goal of this work is to develop a transparent, passivating and conductive contact for the light ...

Optimization of Transparent Passivating Contact for Crystalline Silicon Solar Cells

Köhler, Malte
Pomaska, Manuel
Ding, Kaining
Zamchiy, Alexandr
Lambertz, Andreas
Duan, Weiyuan
Lentz, Florian
Li, Shenghao
Kirchartz, Thomas
Finger, Friedhelm
Rau, Uwe

January 2020

A highly transparent front contact layer system for crystalline silicon (c-Si) solar cells is invest...

Silicon heterojunction solar cells with effectively transparent front contacts

Saive, Rebecca
Boccard, Mathieu
Saenz, Theresa
Yalamanchili, Sisir
Bukowsky, Colton R.
Jahelka, Phillip
Yu, Zhengshan J.
Shi, Jianwei
Holman, Zachary
Atwater, Harry A.

May 2017

We demonstrate silicon heterojunction solar cells with microscale effectively transparent front cont...

Effectively transparent contacts (ETCs) for solar cells

Saive, Rebecca
Bukowsky, Colton R.
Yalamanchili, Sisir
Boccard, Mathieu
Saenz, Theresa
Borsuk, Aleca M.
Holman, Zachary
Atwater, Harry A.

June 2016

We have developed effectively transparent contacts (ETCs) that allow for increased current in hetero...

Transparent silicon carbide/tunnel SiO2 passivation for c-Si solar cell front side: Enabling Jsc > 42 mA/cm2 and iVoc of 742 mV

Pomaska, Manuel (author)
Köhler, Malte (author)
Procel Moya, P.A. (author)
Zamchiy, Alexandr (author)
Singh, Aryak (author)
Kim, Do Yun (author)
Isabella, O. (author)
Zeman, M. (author)
Li, Shenghao (author)

January 2020

N-type microcrystalline silicon carbide (μc-SiC:H(n)) is a wide bandgap material that is very promis...

Silicon heterojunction solar cells: Analysis and basic understanding

Bivour, Martin

January 2017

Increasing the solar cell efficiency by applying advanced cell architectures is one route for crysta...

Low temperature front surface passivation of interdigitated back contact silicon heterojunction solar cell

Shu, Brent
Das, Ujjwal
Jani, Omkar
Hegedus, Steve
Birkmire, Robert

June 2009

The interdigitated back contact silicon heterojunction (IBC-SHJ) solar cell requires a low temperatu...

Post passivation light trapping back contacts for silicon heterojunction solar cells

Smeets, M.
Bittkau, K.
Lentz, F.
Richter, Alexei
Ding, K.
Carius, R.
Rau, U.
Paetzold, U. W.

January 2016

Light trapping in crystalline silicon (c-Si) solar cells is an essential building block for high eff...

Back-Contacted Silicon Heterojunction Solar Cells: Optical-Loss Analysis and Mitigation

Paviet-Salomon, Bertrand
Tomasi, Andrea
Descoeudres, Antoine
Barraud, Loris
Nicolay, Sylvain
Despeisse, Matthieu
De Wolf, Stefaan
Ballif, Christophe

September 2015

We analyze the optical losses that occur in interdigitated back-contacted amorphous/crystalline sili...

Silicon heterojunction solar cells with up to 26.81% efficiency achieved by electrically optimized nanocrystalline-silicon hole contact layers

Lin, H. (author)
Yang, Miao (author)
Ru, Xiaoning (author)
Wang, Genshun (author)
Yin, Shi (author)
Peng, Fuguo (author)
Han, C. (author)
Procel Moya, P.A. (author)
Isabella, O. (author)

January 2023

Silicon heterojunction (SHJ) solar cells have reached high power conversion efficiency owing to thei...

Transparent-conductive-oxide-free front contacts for high-efficiency silicon heterojunction solar cells

Li, Shenghao
Pomaska, Manuel
Qiu, Kaifu
Hong, Ruijiang
Shen, Hui
Finger, Friedhelm
Kirchartz, Thomas
Rau, Uwe
Ding, Kaining
Lambertz, Andreas
Duan, Weiyuan
Bittkau, Karsten
Qiu, Depeng
Yao, Zhirong
Luysberg, Martina
Steuter, Paul
Köhler, Malte

January 2021

In order to compensate the insufficient conductance of heterojunction thin films, transparent conduc...

Achieving a high Short Circuit Current Density of 40.9 mA/cm² for Two-Side Contacted Silicon Heterojunction Solar Cells by using SiC-based Transparent Passivating Contacts

Abstract

Extracted data

Achieving a high Short Circuit Current Density of 40.9 mA/cm² for Two-Side Contacted Silicon Heterojunction Solar Cells by using SiC-based Transparent Passivating Contacts

Abstract

Extracted data

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