Title :
A study of a solar cell with an implanted defect layer
Author :
El-Tahchi, M. ; Toufik, N. ; Ajaka, M. ; Khoury, A. ; Pélanchon, F. ; Mialhe, P.
Author_Institution :
Fac. of Sci. II, Lebanese Univ., Beirut, Lebanon
Abstract :
This work presents a theoretical calculation of the potential barrier due to a low-high interface for low doping, enabling evaluation of the degradation of irradiated Si solar cells. The effects of the radiation environment are taken into account as a reduction of doping level and carrier lifetime. Afterwards the theoretical results are compared with those obtained by simulation. The expressions found can be used to calculate the carrier concentration in each region (n and p) of an n-p junction. But the main feature lies in modelling a defect layer implanted in the bulk of an n-p junction. Results of majority carrier density, minority carrier density, and the low-high barrier height between the defect layer (DL) and the p region base, are shown for different doping values of DL
Keywords :
carrier density; crystal defects; elemental semiconductors; minority carriers; p-n junctions; radiation effects; semiconductor doping; silicon; solar cells; Si; carrier concentration; carrier lifetime; defect layer modelling; doping level reduction; doping values; irradiated solar cells degradation; low doping; low-high barrier height; low-high interface; majority carrier density; minority carrier density; n-p junction; p region base; potential barrier; radiation environment; silicon solar cells; theoretical calculation; Charge carrier density; Charge carrier lifetime; Degradation; Doping; Electrons; Laboratories; Photovoltaic cells; Protons; Semiconductor process modeling; Silicon;
Conference_Titel :
Environment and Solar, 2000 Mediterranean Conference for
Conference_Location :
Beirut
Print_ISBN :
0-7803-7117-8
DOI :
10.1109/CMPLES.2000.939864
