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Titre: Effects of Thickness and Chemical Quality of SiO2 Barrier on POCl3 Diffusion During the Formation of Emitter
Auteur(s): GHEMBAZA, H.
ZERGA, A.
SAIM, R.
Mots-clés: Silicon solar cells
phosphorus diffusion
thermal oxidation
numerical simulation
diffusion profile
Date de publication: 2012
Résumé: The distribution of phosphorus dopants in the emitter formed by POCl3 diffusion show an important ‘kink’ resulting from the existence of electrically inactive phosphorus.Further, this ‘kink’ participates to form a zone called ‘dead layer’ and reduces considerably the minority carrier collection in surface. In order to minimize the effects of this layer, a new technique was used. It can be summarized in an addition of a pre-oxidation step before the phosphorus diffusion. In this paper, we conducted a numerical simulation of phosphorus diffusion by adding a pre-oxidation step, and by varying the chemical quality of silicon oxide SiO2 (wet or dry). The thickness measurement of SiO2 layer formed was accomplished by varying several parameters as: pressure,temperature, and diffusion time. Our results show that it is possible to reduce the kink by a dry SiO2 layer and thickness of 80 nm.
URI/URL: http://dspace.univ-tlemcen.dz/handle/112/1727
Collection(s) :Articles internationaux

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