Characterisation of defects in solar cell material is one step towards higher energy conversion efficiency of solar cells. The method used in this study allows detection across the wafer of defects causing radiative SRH recombination. In this experiment 30 unpassivated, full size mc-Si wafers from three different ingots are cooled to 90K. Emissions after excitation with a 808 nm laser are detected by scanning the samples with a hyperspectral camera recording in the range 900-2500 nm, which includes both band-to-band photoluminescence (BB-PL) and defect related luminescence (DRL). Multivariate Curve Resolution (MCR) statistical analysis is used to separate the recorded emission into different signals. Even though surface recombination gr...
The aim of this work was to investigate defect related luminescence emission in four mono-like silic...
Measurements executed at 300 K revealed photoluminescence solely from silicon. However, at 93 K the ...
Photoluminescence (PL) imaging techniques can be applied to multicrystalline silicon wafers througho...
Characterisation of defects in solar cell material is one step towards higher energy conversion effi...
In this contribution, spectral photoluminescence (SPL) imaging detecting both the spectral distribut...
Characterization of solar cell materials is an important step towards changes in the production proc...
Characterization of solar cell materials is an important step towards changes in the production proc...
Hyperspectral photoluminescence imaging is a non-destructive characterization method used to study r...
Crystal imperfections limit the efficiency of multicrystalline silicon solar cells. Recombination th...
This thesis describes the development of a method for characterization of multicrystalline silicon w...
In this contribution, we apply three different camera-based luminescence imaging techniques to mc-Si...
Defect related luminescence (DRL) of mc-Si wafers, including the four D line emissions D1-D4, is inv...
AbstractIn this contribution, we apply three different camera-based luminescence imaging techniques ...
Defect related luminescence (DRL) of mc-Si wafers, including the four D line emissions D1-D4, is inv...
Measurements executed at 300 K revealed photoluminescence solely from silicon. However, at 93 K the ...
The aim of this work was to investigate defect related luminescence emission in four mono-like silic...
Measurements executed at 300 K revealed photoluminescence solely from silicon. However, at 93 K the ...
Photoluminescence (PL) imaging techniques can be applied to multicrystalline silicon wafers througho...
Characterisation of defects in solar cell material is one step towards higher energy conversion effi...
In this contribution, spectral photoluminescence (SPL) imaging detecting both the spectral distribut...
Characterization of solar cell materials is an important step towards changes in the production proc...
Characterization of solar cell materials is an important step towards changes in the production proc...
Hyperspectral photoluminescence imaging is a non-destructive characterization method used to study r...
Crystal imperfections limit the efficiency of multicrystalline silicon solar cells. Recombination th...
This thesis describes the development of a method for characterization of multicrystalline silicon w...
In this contribution, we apply three different camera-based luminescence imaging techniques to mc-Si...
Defect related luminescence (DRL) of mc-Si wafers, including the four D line emissions D1-D4, is inv...
AbstractIn this contribution, we apply three different camera-based luminescence imaging techniques ...
Defect related luminescence (DRL) of mc-Si wafers, including the four D line emissions D1-D4, is inv...
Measurements executed at 300 K revealed photoluminescence solely from silicon. However, at 93 K the ...
The aim of this work was to investigate defect related luminescence emission in four mono-like silic...
Measurements executed at 300 K revealed photoluminescence solely from silicon. However, at 93 K the ...
Photoluminescence (PL) imaging techniques can be applied to multicrystalline silicon wafers througho...