Manufacturing 100-µm-thick silicon solar cells with efficiencies greater than 20% in a pilot production line

Comparison between normal and reverse thin crystalline silicon solar cells

Benati A.
Butturi M. A.
Capperdoni C.
Carotta M. C.
Martinelli G.
Merli M.
Passari L.
Sartori G.
Van Steenwinkel R.
Youssef G. M.

January 1996

The newly developed ingot growing techniques, as the three-grain and the columnar multigrain ingot p...

Solar mini module made with epitaxial crystalline silicon thin-film wafer equivalents

Reber, S.
Schmidhuber, H.
Lautenschlager, H.
Rentsch, J.
Lutz, F.

January 2004

Crystalline silicon thin-film solar cells manufactured at high temperature are capable to be process...

20% efficient flexible silicon solar cells

Kray, D.
Dicker, J.
Leimenstoll, A.
Glunz, S.W.
Willeke, G.

January 2002

Since new wafering technologies which can produce very thin wafers with potentially reduced costs an...

Manufacturing 100-µm-thick silicon solar cells with efficiencies greater than 20% in a pilot production line

Terheiden, Barbara
Ballmann, Tabitha
Horbelt, Renate
Schiele, Yvonne
Seren, Sabine
Ebser, Jan
Hahn, Giso

January 2015

Reducing wafer thickness while increasing power conversion efficiency is the most effective way to r...

The European Project 20PLµS: 20 percent efficiency on less than 100 µm thick industrially feasible crystalline-Si solar cells

Terheiden, B.
Horbelt, R.
Schiele, Y.
Seren, S.
Ebser, J.
Hahn, G.
Morrison, D.
Heasman, K.
Devenport, S.
Holman, Z.
Descoeudres, A.
Wolf, S. de
Baliff, C.
Saint-Cast, P.
Michl, B.
Schmiga, C.
Weber, B.
Glunz, S.W.
Koentopp, M.B.
Scherff, M.
Ballmann, T.
Müller, J.W.
Antonelli, D.
Busto, C.
Grasso, F.
Ferrazza, F.
Tonelli, E.
Baert, K.
Duerinckx, F.
Cacciato, A.
Oswald, W.

January 2012

The European project 20plµs is developing Si wafer solar cells with efficiencies above 20% on wafers...

The European project 20Plµs : 20 percent efficiency on less than 100µm thick industrially feasible crystalline-Si solar cells

Terheiden, Barbara
Horbelt, Renate
Schiele, Yvonne
Seren, Sabine
Ebser, Jan
Hahn, Giso
Morrison, D.
Heathman, K.
Devenport, S.
Holman, Z.

January 2012

The European project 20plμs is developing Si wafer solar cells with efficiencies above 20% on wafers...

A production route to high efficiency solar cells made with ultra thin silicon wafers

Bruton, T.M.
Roberts, S.R.
Russell, R.W.
Warta, W.
Glunz, S.
Koch, W.
Luque, A.
Lago, R.
Caballero, L.J.
Canizo, C. del
Marti, A.
Frisson, L.
Vallera, A.

January 2002

Reduction in PV system costs can be realised if high efficiency cells can be made with thin silicon ...

>20% Efficient 80 µm Thin Industrial-Type Large-Area Solar Cells from 100 µm Sawn c-Si Wafers

Schiele, Yvonne
Brinkmann, Nils
Ebser, Jan
Horbelt, Renate
Frey, Alexander
Engelhardt, Josh
Hahn, Giso
Terheiden, Barbara

January 2015

Reducing the thickness of crystalline Si wafers to be processed into solar cells yields several sign...

High Efficiency Silicon Solar Cells

Zin, Ngwe Soe
McIntosh, Keith
Fong, Kean
Blakers, Andrew

December 2015

Silicon remains the material of choice for photovoltaics because of its abundance, non-toxicity, hig...

Greater than 16% Efficient Screen Printed Solar Cells on 115-170 μm Thick Cast Multicrystalline Silicon

Upadhyaya, A. D.
Sheoran, Manav
Ristow, Alan
Rohatgi, Ajeet
Narayanan, S.
Roncin, Steve

May 2006

Presented at the 4th World Conference on Photovoltaic Energy Conversion; Hawaii, USA; May 7-12, 2006...

Pilot-line processing of very large (21 x 21 cm²) and thin mc-Si solar cells

Clement, F.
Preu, R.
Reis, I.E.
Biro, D.
Rentsch, J.
Zimmer, M.
Rein, S.
Emanuel, G.
Krieg, A.
Müller, A.
Martin, F.

January 2007

Enlargement of the wafer size from 15.6 x 15.6 cm2 to 21 x 21 cm2 seems to be an effective cost redu...

A review of thin film silicon for solar cell applications [Conference Paper]

Catchpole, Kylie
McCann, Michelle Jane
Weber, K. J
Blakers, Andrew

January 1999

For photovoltaic technology to compete economically with conventional sources of electricity the cos...

Screen-Printed Al-Alloyed Rear Junction Solar Cell Concept Applied to Very Thin (100μm) Large-Area n-Type Si Wafers

Schiele, Y.
Book, F.
Seren, S.
Hahn, G.
Terheiden, B.

December 2012

AbstractReducing the thickness of crystalline Si wafers processed to solar cells returns two signifi...

Thin silicon solar cells: Pathway to cost-effective and defect-tolerant cell design

Augusto, André
Bowden, Stuart G.
Looney, Erin Elizabeth
del Canizo Nadal, Carlos
Buonassisi, Anthony

November 2018

Thinner silicon wafers are a pathway to lower cost without compromising the efficiency of solar cell...

Comparison between normal and reverse thin crystalline silicon solar cells

Benati A.
Butturi M. A.
Capperdoni C.
Carotta M. C.
Martinelli G.
Merli M.
Passari L.
Sartori G.
Van Steenwinkel R.
Youssef G. M.

January 1996

The newly developed ingot growing techniques, as the three-grain and the columnar multigrain ingot p...

Comparison between normal and reverse thin crystalline silicon solar cells

Benati A.
Butturi M. A.
Capperdoni C.
Carotta M. C.
Martinelli G.
Merli M.
Passari L.
Sartori G.
Van Steenwinkel R.
Youssef G. M.

January 1996

The newly developed ingot growing techniques, as the three-grain and the columnar multigrain ingot p...

Solar mini module made with epitaxial crystalline silicon thin-film wafer equivalents

Reber, S.
Schmidhuber, H.
Lautenschlager, H.
Rentsch, J.
Lutz, F.

January 2004

Crystalline silicon thin-film solar cells manufactured at high temperature are capable to be process...

20% efficient flexible silicon solar cells

Kray, D.
Dicker, J.
Leimenstoll, A.
Glunz, S.W.
Willeke, G.

January 2002

Since new wafering technologies which can produce very thin wafers with potentially reduced costs an...

Manufacturing 100-µm-thick silicon solar cells with efficiencies greater than 20% in a pilot production line

Terheiden, Barbara
Ballmann, Tabitha
Horbelt, Renate
Schiele, Yvonne
Seren, Sabine
Ebser, Jan
Hahn, Giso

January 2015

Reducing wafer thickness while increasing power conversion efficiency is the most effective way to r...

The European Project 20PLµS: 20 percent efficiency on less than 100 µm thick industrially feasible crystalline-Si solar cells

Terheiden, B.
Horbelt, R.
Schiele, Y.
Seren, S.
Ebser, J.
Hahn, G.
Morrison, D.
Heasman, K.
Devenport, S.
Holman, Z.
Descoeudres, A.
Wolf, S. de
Baliff, C.
Saint-Cast, P.
Michl, B.
Schmiga, C.
Weber, B.
Glunz, S.W.
Koentopp, M.B.
Scherff, M.
Ballmann, T.
Müller, J.W.
Antonelli, D.
Busto, C.
Grasso, F.
Ferrazza, F.
Tonelli, E.
Baert, K.
Duerinckx, F.
Cacciato, A.
Oswald, W.

January 2012

The European project 20plµs is developing Si wafer solar cells with efficiencies above 20% on wafers...

The European project 20Plµs : 20 percent efficiency on less than 100µm thick industrially feasible crystalline-Si solar cells

Terheiden, Barbara
Horbelt, Renate
Schiele, Yvonne
Seren, Sabine
Ebser, Jan
Hahn, Giso
Morrison, D.
Heathman, K.
Devenport, S.
Holman, Z.

January 2012

The European project 20plμs is developing Si wafer solar cells with efficiencies above 20% on wafers...

A production route to high efficiency solar cells made with ultra thin silicon wafers

Bruton, T.M.
Roberts, S.R.
Russell, R.W.
Warta, W.
Glunz, S.
Koch, W.
Luque, A.
Lago, R.
Caballero, L.J.
Canizo, C. del
Marti, A.
Frisson, L.
Vallera, A.

January 2002

Reduction in PV system costs can be realised if high efficiency cells can be made with thin silicon ...

>20% Efficient 80 µm Thin Industrial-Type Large-Area Solar Cells from 100 µm Sawn c-Si Wafers

Schiele, Yvonne
Brinkmann, Nils
Ebser, Jan
Horbelt, Renate
Frey, Alexander
Engelhardt, Josh
Hahn, Giso
Terheiden, Barbara

January 2015

Reducing the thickness of crystalline Si wafers to be processed into solar cells yields several sign...

High Efficiency Silicon Solar Cells

Zin, Ngwe Soe
McIntosh, Keith
Fong, Kean
Blakers, Andrew

December 2015

Silicon remains the material of choice for photovoltaics because of its abundance, non-toxicity, hig...

Greater than 16% Efficient Screen Printed Solar Cells on 115-170 μm Thick Cast Multicrystalline Silicon

Upadhyaya, A. D.
Sheoran, Manav
Ristow, Alan
Rohatgi, Ajeet
Narayanan, S.
Roncin, Steve

May 2006

Presented at the 4th World Conference on Photovoltaic Energy Conversion; Hawaii, USA; May 7-12, 2006...

Pilot-line processing of very large (21 x 21 cm²) and thin mc-Si solar cells

Clement, F.
Preu, R.
Reis, I.E.
Biro, D.
Rentsch, J.
Zimmer, M.
Rein, S.
Emanuel, G.
Krieg, A.
Müller, A.
Martin, F.

January 2007

Enlargement of the wafer size from 15.6 x 15.6 cm2 to 21 x 21 cm2 seems to be an effective cost redu...

A review of thin film silicon for solar cell applications [Conference Paper]

Catchpole, Kylie
McCann, Michelle Jane
Weber, K. J
Blakers, Andrew

January 1999

For photovoltaic technology to compete economically with conventional sources of electricity the cos...

Screen-Printed Al-Alloyed Rear Junction Solar Cell Concept Applied to Very Thin (100μm) Large-Area n-Type Si Wafers

Schiele, Y.
Book, F.
Seren, S.
Hahn, G.
Terheiden, B.

December 2012

AbstractReducing the thickness of crystalline Si wafers processed to solar cells returns two signifi...

Thin silicon solar cells: Pathway to cost-effective and defect-tolerant cell design

Augusto, André
Bowden, Stuart G.
Looney, Erin Elizabeth
del Canizo Nadal, Carlos
Buonassisi, Anthony

November 2018

Thinner silicon wafers are a pathway to lower cost without compromising the efficiency of solar cell...

Comparison between normal and reverse thin crystalline silicon solar cells

Benati A.
Butturi M. A.
Capperdoni C.
Carotta M. C.
Martinelli G.
Merli M.
Passari L.
Sartori G.
Van Steenwinkel R.
Youssef G. M.

January 1996

The newly developed ingot growing techniques, as the three-grain and the columnar multigrain ingot p...

Comparison between normal and reverse thin crystalline silicon solar cells

Benati A.
Butturi M. A.
Capperdoni C.
Carotta M. C.
Martinelli G.
Merli M.
Passari L.
Sartori G.
Van Steenwinkel R.
Youssef G. M.

January 1996

The newly developed ingot growing techniques, as the three-grain and the columnar multigrain ingot p...

Solar mini module made with epitaxial crystalline silicon thin-film wafer equivalents

Reber, S.
Schmidhuber, H.
Lautenschlager, H.
Rentsch, J.
Lutz, F.

January 2004

Crystalline silicon thin-film solar cells manufactured at high temperature are capable to be process...

20% efficient flexible silicon solar cells

Kray, D.
Dicker, J.
Leimenstoll, A.
Glunz, S.W.
Willeke, G.

January 2002

Since new wafering technologies which can produce very thin wafers with potentially reduced costs an...

Manufacturing 100-µm-thick silicon solar cells with efficiencies greater than 20% in a pilot production line

Abstract

Extracted data

Manufacturing 100-µm-thick silicon solar cells with efficiencies greater than 20% in a pilot production line

Abstract

Extracted data

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