Add to ORKGInjection-level dependent lifetime curves of iron-contaminated silicon wafers of various resistivities have been modeled using Shockley-Read- Hall theory. The modeling allows accurate determination of the capture cross-sections of FeB pairs. These cross-sections are then used to extend the validity of a commonly used method for determining iron concentrations to all resistivities. The impact of interstitial iron on solar cell parameters is also modeled and discussed
The recombination properties of Fe-Ga pairs in Ga-doped multicrystalline silicon wafers is investiga...
Carrier density is a frequently examined parameter for silicon material characterization especially ...
Iron-boron pairs in crystalline silicon are studied by measuring the recombination lifetime as a fun...
AbstractLifetime techniques are frequently used to identify transition metals and to quantify their ...
As dissolved iron is one of the most common lifetime-killing contaminants in silicon, its coexisting...
Injection-level dependent recombination lifetime measurements of iron-diffused, boron-doped silicon...
In this work, an extensive injection level dependent carrier lifetime study on intentionally iron co...
6th International Conference on Crystalline Silicon Photovoltaics (SiliconPV), CEA INES, Chambery, F...
A detailed knowledge of the distributions of carrier lifetimes, impurities, and crystal defects in s...
Temperature controlled photoconductance is applied to measure the electron and hole capture cross se...
AbstractThe paper is devoted to the identification of the metallic impurities in silicon wafers by u...
The excess carrier density at which the carrier lifetime in crystalline silicon remains unchanged af...
Apart from detecting the presence of electrically active defects, lifetime measurements allow for a ...
The impact of iron point defects on the measured injection-dependent minority carrier lifetime in si...
This paper introduces a photoluminescence-based technique for determining the acceptor concentration...
The recombination properties of Fe-Ga pairs in Ga-doped multicrystalline silicon wafers is investiga...
Carrier density is a frequently examined parameter for silicon material characterization especially ...
Iron-boron pairs in crystalline silicon are studied by measuring the recombination lifetime as a fun...
AbstractLifetime techniques are frequently used to identify transition metals and to quantify their ...
As dissolved iron is one of the most common lifetime-killing contaminants in silicon, its coexisting...
Injection-level dependent recombination lifetime measurements of iron-diffused, boron-doped silicon...
In this work, an extensive injection level dependent carrier lifetime study on intentionally iron co...
6th International Conference on Crystalline Silicon Photovoltaics (SiliconPV), CEA INES, Chambery, F...
A detailed knowledge of the distributions of carrier lifetimes, impurities, and crystal defects in s...
Temperature controlled photoconductance is applied to measure the electron and hole capture cross se...
AbstractThe paper is devoted to the identification of the metallic impurities in silicon wafers by u...
The excess carrier density at which the carrier lifetime in crystalline silicon remains unchanged af...
Apart from detecting the presence of electrically active defects, lifetime measurements allow for a ...
The impact of iron point defects on the measured injection-dependent minority carrier lifetime in si...
This paper introduces a photoluminescence-based technique for determining the acceptor concentration...
The recombination properties of Fe-Ga pairs in Ga-doped multicrystalline silicon wafers is investiga...
Carrier density is a frequently examined parameter for silicon material characterization especially ...
Iron-boron pairs in crystalline silicon are studied by measuring the recombination lifetime as a fun...