Defects in multicrystalline Si wafers studied by spectral photoluminescence imaging, combined with EBSD and dislocation mapping
Journal article, Peer reviewed
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http://hdl.handle.net/11250/2428480Utgivelsesdato
2016Metadata
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- Institutt for materialteknologi [2549]
- Publikasjoner fra CRIStin - NTNU [38289]
Sammendrag
Defect related sub-band gap luminescence emissions due to Shockley-Read-Hall recombination in mc-Si wafers have been investigated with spectral photoluminescence imaging, combined with electron backscatter diffraction and dislocation mapping, for p- and n-type wafers, with and without intentionally introduced Fe. The well-known emission with energy 0.807 eV (D1) is found to be correlated with heavily dislocated areas of the wafers with emissions emanating from the immediate vicinity of the defects. A less studied emission with energy centered around 0.7 eV (D07) may be the product of two emissions and is found to exhibit very different characteristics in a boron-doped wafer intentionally contaminated with Fe than in the other samples. There is reason to believe that a radiative recombination pathway with characteristic photons with energy 0.694 eV is present in this sample due to interstitial iron, Fei, while the D3/D4 (0.938 eV/1.00 eV) emission pair is related to the FeB complex.