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Article Dans Une Revue Journal of Nanoparticle Research Année : 2004

Flame temperature effect on the structure of SiC nanoparticles grown by laser

Résumé

Small SiC nanoparticles (10 nm diameter) have been grown in a flow reactor by CO2 laser pyrolysis from a C2H2 and SiH4 mixture. The laser radiation is strongly absorbed by SiH4 vibration. The energy is transferred to the reactive medium and leads to the dissociation of molecules and the subsequent growth of the nanoparticles. The reaction happens with a flame. The purpose of the experiments reported in this paper is to limit the size of the growing particles to the nanometric scale for which specific properties are expected to appear. Therefore the effects of experimental parameters on the structure and chemical composition of nanoparticles have been investigated. For a given reactive mixture and gas velocity, the flame temperature is governed by the laser power. In this study, the temperature was varied from 875°C to 1100°C. The chemical analysis of the products indicate that their composition is a function of the temperature. For the same C/Si atomic ratio in the gaseous phase, the C/Si ratio in the powder increases from 0.7 at 875°C up to 1.02 at 1100°C, indicating a growth mechanism limited by C2H2 dissociation. As expected, X-ray diffraction has shown an improved crystallisation with increasing temperature. Transmission electron microscopy observations have revealed the formation of 10 nm grains for all values of laser power (or flame temperature). These grains appear amorphous at low temperature, whereas they contain an increasing number of nanocrystals (2 nm diameter) when the temperature increases. These results pave the way to a better control of the structure and chemical composition of laser synthesised SiC nanoparticles in the 10 nm range.

Dates et versions

hal-00085089 , version 1 (11-07-2006)

Identifiants

Citer

Nathalie Herlin-Boime, C. Reynaud, J. Vicens, C. Dufour, F. Ténégal, et al.. Flame temperature effect on the structure of SiC nanoparticles grown by laser. Journal of Nanoparticle Research, 2004, 6, pp.63 - 70. ⟨10.1023/B:NANO.0000023225.81812.10⟩. ⟨hal-00085089⟩
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