Journal of New Technology and Materials
Volume 1, Numéro 0, Pages 29-32
2011-12-05
Authors : Sayad Y. . Kaminski A. . Blanc D. . Bazer-bachi B. . Lemiti M. . Nouiri A. .
Light or Laser beam induced current technique (LBIC) is conventionally used to measure minority charge carrier’s diffusion length LD by scanning a light spot away from collector (abrupt pn junction or Schottky contact). We show here the necessary precautions to be taken in order to apply this method on materials used in photovoltaics. We talk about SRLBIC or spectral response LBIC when this technique is combined with spectral reflectivity to allow determination of cells quantum efficiency. From internal quantum efficiency analysis, one deduces an effective carrier diffusion length, Leff, including bulk and surface recombinations. LBIC is, also, often used to reveal electrically active extended defects such as grain boundaries and dislocations, and to check passivation efficiency of fabricated cells.
LBIC, solar cells, crystalline silicon, diffusion length, extended defects, surface passivation
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