Modelling of an industrial moving belt chemical vapour deposition reactor forming SiO2 films

In order to improve the efficiency of an industrial atmospheric pressure chemical vapour deposition (APCVD) moving belt reactor depositing silicon dioxide SiO2 films from tetraethoxysilane Si(OC2H5)4 (TEOS) andozone O3, a 2D simulation model based on the computational fluid dynamics (CFD) software ESTET has been developed. On the basis of the global chemical scheme of Zhou et al. [1997. Fifth International Conference on Advanced Thermal Processing of Semiconductors, RTP’97, New Orleans, LA, USA, pp. 257–268], a new kinetic model has been developed to conveniently represent our own set of experimental data. In particular, a chemical limitation for TEOS has been introduced, conferring increased chemical validity to the model. Simulations have shown that for the nominal conditions, TEOS conversion into SiO2 layers was too low andthat an increase in ozone concentration or in the nitrogen flow rates through the injector did not offer any advantage. Conversely, a decrease in the curtain nitrogen flow rate or an increase in that of the shieldcan enhance the process productivity and TEOS conversion

Contribution a l'analyse du silicium amorphe hydrogene par les methodes nucleaires

SIGLEAvailable from CEN Saclay, Service de Documentation, 91191 Gif-sur-Yvette Cedex (France) / INIST-CNRS - Institut de l'Information Scientifique et TechniqueFRFranc

Thin film solar cells and new concepts

International audienceno abstrac

Editorial special issue ``Inorganic, organic and hybrid thin film solar cells''

International audienceno abstrac