Add to ORKGThis paper deals with replacing a dry oxidation with a wet oxidation process during low pressure diffusion using boron tribromide (BBr3) in solar cell production. Because the liquid boron trioxide (B2O3), a product of a chemical reaction during diffusion, condenses apart from wafers on walls of quartz tube, it is essential to clean the tube after diffusion. This could be done by evaporation of water into the tube after unload or, in order to make the production time shorter, by replacing the dry oxidation with wet oxidation process. In this paper a comparison of the wet and dry oxidation is given with regard to the solar cell production
AbstractWe present a simple industrially upscaleable process for the fabrication of bifacial n-type ...
The thesis is focused on high temperature processes in crystalline solar cells production. Main topi...
The thesis is focused on high temperature processes in crystalline solar cells production. Main topi...
This paper deals with replacing a dry oxidation with a wet oxidation process during low pressure dif...
In this work, we investigate boron diffusion processes for emitter formation on the front side of n-...
This thesis undertakes the development, characterization and optimization of boron diffusion for sil...
AbstractBoron precipitates formed during boron source diffusion is an unwanted phenomenon during fro...
AbstractBoron precipitates formed during boron source diffusion is an unwanted phenomenon during fro...
Cette thèse présente le développement d'un équipement permettant le dopage Bore des cellules photovo...
AbstractWe present a simple industrially upscaleable process for the fabrication of bifacial n-type ...
AbstractThe intensified research into n-type silicon solar cells over the last few years let the app...
Different diffusion barrier layers applied on the boron-doped surfaces of silicon wafers with sawdam...
In the development of high efficiency crystalline Si solar cells, decreasing bulk and surface recomb...
To considerably improve the conversion efficiency of industrial solar cells, the effective passivati...
An effective passivation of the rear surface is a prerequisite to considerably improve the conversio...
AbstractWe present a simple industrially upscaleable process for the fabrication of bifacial n-type ...
The thesis is focused on high temperature processes in crystalline solar cells production. Main topi...
The thesis is focused on high temperature processes in crystalline solar cells production. Main topi...
This paper deals with replacing a dry oxidation with a wet oxidation process during low pressure dif...
In this work, we investigate boron diffusion processes for emitter formation on the front side of n-...
This thesis undertakes the development, characterization and optimization of boron diffusion for sil...
AbstractBoron precipitates formed during boron source diffusion is an unwanted phenomenon during fro...
AbstractBoron precipitates formed during boron source diffusion is an unwanted phenomenon during fro...
Cette thèse présente le développement d'un équipement permettant le dopage Bore des cellules photovo...
AbstractWe present a simple industrially upscaleable process for the fabrication of bifacial n-type ...
AbstractThe intensified research into n-type silicon solar cells over the last few years let the app...
Different diffusion barrier layers applied on the boron-doped surfaces of silicon wafers with sawdam...
In the development of high efficiency crystalline Si solar cells, decreasing bulk and surface recomb...
To considerably improve the conversion efficiency of industrial solar cells, the effective passivati...
An effective passivation of the rear surface is a prerequisite to considerably improve the conversio...
AbstractWe present a simple industrially upscaleable process for the fabrication of bifacial n-type ...
The thesis is focused on high temperature processes in crystalline solar cells production. Main topi...
The thesis is focused on high temperature processes in crystalline solar cells production. Main topi...