Add to ORKGThe ribbon-growth-on-substrate (RGS) technology has the potential to produce wafers for PV at low cost and high speed without silicon losses related to wafer cutting. Up to now a discontinuously operating R&D machine produces test wafers with high oxygen content. Special care had therefore to be taken to prevent the formation of recombination centres related to oxygen formed at high temperatures during cell processing. Solar cells fabricated from RGS material with high oxygen content using an evaporation process resulted in efficiencies of up to 12.8%. An industrial-type screen printing process led to efficiencies of up to 10.5%. To further increase efficiency, the oxygen content has to be reduced. After a rebuilding of the RGS machine wafe...
Ribbon growth on substrate (RGS) silicon could be the crystalline silicon material for PV of the fut...
Silicon wafer for solar cell applications can be produced at high speed and in one step by the RGS t...
Solar cells have been processed on Edge-defined Film-fed Growth and String Ribbon silicon. Based on ...
Ribbon Growth on Substrate (RGS) is a very promising low cost silicon ribbon material for photovolta...
Ribbon Growth on Substrate (RGS) is a low cost silicon ribbon material for photovoltaics. The RGS gr...
Direct casting of silicon into wafers allows to produce wafers much more cheaply than in traditional...
Direct casting of silicon into wafers allows to produce wafers much more cheaply than in traditional...
Kerf losses due to ingot and wafer sawing can be avoided by solidifying the silicon wafers directly ...
Ribbon Growth on Substrate (RGS) is a cost-effective method to produce silicon wafers directly from ...
Ribbon Growth on Substrate (RGS) technology is a cost-effective approach in terms of silicon usage p...
In this work, RGS (Ribbon Growth on Substrate) a ribbon silicon material from Bayer AG is characteri...
AbstractTo date, solar cells made from kerf-less and cost-effective Ribbon Growth on Substrate (RGS)...
Lower PV systems cost can be achieved if less silicon material is used in modules and if higher sola...
Ribbon Growth on Substrate (RGS) silicon wafers are cast directly from the melt onto reusable substr...
Presented at the 3rd World Conference on Photovoltaic Energy Conversion; Osaka, Japan; May 11-18, 20...
Ribbon growth on substrate (RGS) silicon could be the crystalline silicon material for PV of the fut...
Silicon wafer for solar cell applications can be produced at high speed and in one step by the RGS t...
Solar cells have been processed on Edge-defined Film-fed Growth and String Ribbon silicon. Based on ...
Ribbon Growth on Substrate (RGS) is a very promising low cost silicon ribbon material for photovolta...
Ribbon Growth on Substrate (RGS) is a low cost silicon ribbon material for photovoltaics. The RGS gr...
Direct casting of silicon into wafers allows to produce wafers much more cheaply than in traditional...
Direct casting of silicon into wafers allows to produce wafers much more cheaply than in traditional...
Kerf losses due to ingot and wafer sawing can be avoided by solidifying the silicon wafers directly ...
Ribbon Growth on Substrate (RGS) is a cost-effective method to produce silicon wafers directly from ...
Ribbon Growth on Substrate (RGS) technology is a cost-effective approach in terms of silicon usage p...
In this work, RGS (Ribbon Growth on Substrate) a ribbon silicon material from Bayer AG is characteri...
AbstractTo date, solar cells made from kerf-less and cost-effective Ribbon Growth on Substrate (RGS)...
Lower PV systems cost can be achieved if less silicon material is used in modules and if higher sola...
Ribbon Growth on Substrate (RGS) silicon wafers are cast directly from the melt onto reusable substr...
Presented at the 3rd World Conference on Photovoltaic Energy Conversion; Osaka, Japan; May 11-18, 20...
Ribbon growth on substrate (RGS) silicon could be the crystalline silicon material for PV of the fut...
Silicon wafer for solar cell applications can be produced at high speed and in one step by the RGS t...
Solar cells have been processed on Edge-defined Film-fed Growth and String Ribbon silicon. Based on ...