Add to ORKGSeveral combinations of oxidation and phosphorus diffusion processes suitable for silicon solar cell processing were applied to solar grade multicrystalline silicon. This resulted in drastic changes of the minority carrier lifetime. The effect of extended light exposure of the samples was measured with injection level dependent lifetime spectroscopy. This revealed iron as a contaminant source present in non-treated samples which could significantly be reduced by an appropriate phosphorus diffusion. To monitor the changes with a high spatial resolution the Carrier Density Imaging (CDI) technique was applied showing distinct differences between oxidations and diffusions
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
It is well known that gettering and passivation steps during solar cell processing enhance the minor...
The presented work deals with phosphorus diffusion gettering of mc material. A significant improveme...
Phosphorus diffusion gettering of multicrystalline silicon solar cell materials generally fails to p...
Phosphorus diffusion gettering of multicrystalline silicon solar cell materials generally fails to p...
The presented work deals with phosphorus diffusion gettering of mc material. A significant improveme...
Abstract—Phosphorus diffusion gettering of multicrystalline silicon solar cell materials generally f...
The material quality of multicrystalline silicon is influenced by crystal defects and contaminations...
We investigated the gettering and passivation qualities of different industrial type processes for m...
This work the influence on the gettering efficiency of varying cooling down ramps following a phosph...
Phosphorus diffusions are used in the fabrication process for nearly all crystalline-silicon (c-Si) ...
For multicrystalline silicon, the principal understanding of gettering and other high temperature pr...
We present progress of the analysis of multicrystalline silicon and of improvements of our understan...
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
It is well known that gettering and passivation steps during solar cell processing enhance the minor...
The presented work deals with phosphorus diffusion gettering of mc material. A significant improveme...
Phosphorus diffusion gettering of multicrystalline silicon solar cell materials generally fails to p...
Phosphorus diffusion gettering of multicrystalline silicon solar cell materials generally fails to p...
The presented work deals with phosphorus diffusion gettering of mc material. A significant improveme...
Abstract—Phosphorus diffusion gettering of multicrystalline silicon solar cell materials generally f...
The material quality of multicrystalline silicon is influenced by crystal defects and contaminations...
We investigated the gettering and passivation qualities of different industrial type processes for m...
This work the influence on the gettering efficiency of varying cooling down ramps following a phosph...
Phosphorus diffusions are used in the fabrication process for nearly all crystalline-silicon (c-Si) ...
For multicrystalline silicon, the principal understanding of gettering and other high temperature pr...
We present progress of the analysis of multicrystalline silicon and of improvements of our understan...
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
The dependency of minority charge carrier lifetime values at grain boundaries in multicrystalline si...
It is well known that gettering and passivation steps during solar cell processing enhance the minor...