Next generation inline minority carrier lifetime metrology on multicrystalline silicon bricks for PV

Abstract: In this paper the novel method MDP (microwave detected photoconductivity) [1][2][3][4] will be introduced to the field of contact less inline metrology at bricks. By the application of a widely advanced microwave detection technique, it is now possible to map minority carrier lifetime and photoconductivity simultaneously, with a so far unsurpassed combination of spatial resolution, sensitivity, and measurement speed. Beside these two parameters the iron concentration can be detected and analyzing the photocond… Show more

“…[13] This substantial characteristic is a key factor for design and development of solar cells at any stage. [14] The YAG:Ce +3 -Yb +3 (Ce 0.01 Yb 0.15 Y 0.84 Al 5 O 12 ) phosphor is prepared by the conventional high temperature solid state reaction method and photoluminescence (PL) is measured by an Ideaoptics spectrometer (PG2000-Pro-EX).…”

Excess Carrier Lifetime Improvement in c-Si Solar Cells by YAG:Ce ³⁺ -Yb ³⁺

“…[13] This substantial characteristic is a key factor for design and development of solar cells at any stage. [14] The YAG:Ce +3 -Yb +3 (Ce 0.01 Yb 0.15 Y 0.84 Al 5 O 12 ) phosphor is prepared by the conventional high temperature solid state reaction method and photoluminescence (PL) is measured by an Ideaoptics spectrometer (PG2000-Pro-EX).…”

Excess Carrier Lifetime Improvement in c-Si Solar Cells by YAG:Ce ³⁺ -Yb ³⁺

Conceptual Advances: Recombination Properties

Predicting Solar Cell Efficiencies from Bulk Lifetime Images of Multicrystalline Silicon Bricks