Add to ORKGIn c-Si solar cells, surface recombination velocity increases as the wafer thickness decreases due to an increase in surface to volume ratio. For high efficiency, in addition to low surface recombination velocity at the rear side, a high internal reflection from the rear surface is also required. The SiOxNy film with low absorbance can act as rear surface reflector. In this study, industrially feasible SiO2/SiOxNy stack for rear surface passivation and screen printed local aluminium back surface field were used in the cell structure. A 3 nm thick oxide layer has resulted in low fixed oxide charge density of 1.58 x 10(11) cm(-2) without parasitic shunting. The oxide layer capped with SiOxNy layer led to surface recombination velocity of 155 ...
Improvement of surface passivation technique for crystalline silicon solar cells was studied. To red...
In this work we investigated the properties of silicon oxide (SiOy) and silicon nitride (SiNx) layer...
A novel stack passivation scheme, in which plasma silicon nitride (SiN) is stacked on top of a rapid...
Recombination of charge carriers is a significant loss mechanism in solar cells. To achieve high eff...
This paper addresses the calculation of internal back reflectance for various dielectrics that are u...
Surface passivation continues to be a significant requirement in achieving high solar-cell efficienc...
<p></p><p>ABSTRACT The silicon solar cell passivation is essential to achieve high efficiency, becau...
Due to the trend towards thinner and higher efficient crystalline silicon solar cells, it is substan...
Effective reduction of front surface carrier recombination is essential for high efficiency silicon ...
This paper addresses the calculation of internal back reflectance for various dielectrics that are u...
One promising path to a reduced cost of crystalline silicon (c-Si) photovoltaics (PV) is to increase...
Surface recombination of carriers in solar cells can cause a significant reduction in their efficien...
High-efficiency silicon solar cells strongly rely on an effective reduction of charge carrier recomb...
AbstractSurface recombination of carriers in solar cells can cause a significant reduction in their ...
Al2O3/SiNx stacks that are prepared at low temperatures in chemical vapor deposition processes excel...
Improvement of surface passivation technique for crystalline silicon solar cells was studied. To red...
In this work we investigated the properties of silicon oxide (SiOy) and silicon nitride (SiNx) layer...
A novel stack passivation scheme, in which plasma silicon nitride (SiN) is stacked on top of a rapid...
Recombination of charge carriers is a significant loss mechanism in solar cells. To achieve high eff...
This paper addresses the calculation of internal back reflectance for various dielectrics that are u...
Surface passivation continues to be a significant requirement in achieving high solar-cell efficienc...
<p></p><p>ABSTRACT The silicon solar cell passivation is essential to achieve high efficiency, becau...
Due to the trend towards thinner and higher efficient crystalline silicon solar cells, it is substan...
Effective reduction of front surface carrier recombination is essential for high efficiency silicon ...
This paper addresses the calculation of internal back reflectance for various dielectrics that are u...
One promising path to a reduced cost of crystalline silicon (c-Si) photovoltaics (PV) is to increase...
Surface recombination of carriers in solar cells can cause a significant reduction in their efficien...
High-efficiency silicon solar cells strongly rely on an effective reduction of charge carrier recomb...
AbstractSurface recombination of carriers in solar cells can cause a significant reduction in their ...
Al2O3/SiNx stacks that are prepared at low temperatures in chemical vapor deposition processes excel...
Improvement of surface passivation technique for crystalline silicon solar cells was studied. To red...
In this work we investigated the properties of silicon oxide (SiOy) and silicon nitride (SiNx) layer...
A novel stack passivation scheme, in which plasma silicon nitride (SiN) is stacked on top of a rapid...